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Instruction manual
04 - 2016
10146
CONN
ECT
TOUC
HAQ
UACI
ATPO
WER
(I)L
D -S
T / -
HE
(602
-200
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AQUACIATPOWER En - 2
CONTENTSPREFACE .................................................................... 3
1 - SAFETY CONSIDERATIONS ................................ 4
1.1 Safety guidelines ............................................... 41.2 Safety precautions ............................................. 4
2 - CONTROL OVERVIEW .......................................... 4
2.1 Control system ................................................... 42.2 System functionalities ........................................ 42.3 Operating modes ............................................... 42.4 CONNECT TOUCH control ................................ 4
3 - CONTROL COMPONENTS ................................... 5
3.1 CONNECT TOUCH overview ............................ 53.2 CONNECT TOUCH - features overview ............. 5
4 - HARDWARE .......................................................... 6
4.1 Control boards ................................................... 64.2 Power supply to boards ..................................... 64.3 Light Emitting Diodes on boards ........................ 64.4 Pressure transducers ......................................... 64.5 Temperature sensors ......................................... 64.6 Actuators ........................................................... 74.7 Terminal block connections ............................... 7
5 - HOW TO USE THE CONNECT TOUCH INTERFACE .. 9
5.1 CONNECT TOUCH menu structure .................. 105.2 CONNECT TOUCH buttons .............................. 115.3 Read the welcome screen ................................ 125.4 Explore the synoptic screen .............................. 125.5 Start/Stop the unit ............................................. 125.6 Set the schedule ............................................... 135.7 Manage display settings ................................... 145.8 Monitor unit parameters .................................... 155.9 Modify unit parameters ..................................... 165.10 Override system configuration .......................... 165.11 Analyse history trends ...................................... 17
6 - WEB CONNECTION ............................................. 18
6.1 Web interface ................................................... 186.2 Open the web interface ..................................... 186.3 Manage web browser settings .......................... 186.4 Read technical documentation ......................... 18
7 - SETTING UP CONNECT TOUCH – DISPLAY MENU STRUCTURE......................................................... 19
7.1 Main menu ........................................................ 197.2 Configuration menu (CONFIG) ......................... 277.3 Network Parameters menu ............................... 32
8 - STANDARD CONTROL OPERATIONS AND OPTIONS .............................................................. 34
8.1 Unit Start / Stop control ..................................... 348.2 Heating / Cooling control .................................. 348.3 Supplementary heating..................................... 358.4 Water pumps control ......................................... 358.5 Hydronic kit option ............................................ 368.6 Control point ..................................................... 378.7 Capacity limitation ............................................ 388.8 Controlling capacity .......................................... 398.9 Night mode ....................................................... 398.10 Controlling the coil pressure ............................. 398.11 Setting holidays ................................................ 398.12 Dry cooler – free cooling option ........................ 408.13 Energy Management Module ........................... 408.14 Heat recovery option (desuperheater) .............. 408.15 Defrost cycle (heat pumps only) ....................... 418.16 Master/Slave control ......................................... 418.17 BACnet IP option .............................................. 41
9 - DIAGNOSTICS ..................................................... 42
9.1 Control diagnostics ........................................... 429.2 E-mail notifications ........................................... 429.3 Alarms description ............................................ 43
10 - MAINTENANCE .................................................. 49
En - 3 AQUACIATPOWER
PREFACEThe goal of this document is to give a broad overview of the main functions of the control system used to control AQUACIATPOWER LD -ST/-HE air-cooled liquid chillers and AQUACIATPOWER ILD -ST/-HE reversible heat pumps with 160 to 520 kW cooling/heating capacity.
Instructions in this manual are given as a guide to good practice in the installation, start-up and operation of the control system. This document does not contain full service procedures for the correct operation of the equipment.
The support of a qualified Manufacturer Service Engineer is strongly recommended to ensure optimal operation of the equipment as well as the optimization of all available functionalities.
Note that this document may refer to optional components and certain functions, options or accessories may not be available for the specific unit.
IMPORTANT: All screenshots of the user interface provided in this manual include text in English. After changing the language of the system, all labels will be in the language selected by the user.
Please read all instructions prior to proceeding with any work. Pay attention to all safety warnings.
The information provided herein is solely for the purpose of allowing customers to operate and service the equipment and it is not to be reproduced, modified or used for any other purpose without the prior consent of the Manufacturer.
Acronyms / Abbreviations
In this manual, the refrigeration circuits are called circuit A and circuit B. Compressors in circuit A are labelled A1, A2, A3, A4, whereas compressors in circuit B are labelled B1, B2, B3, B4.
Acronym DescriptionBMS Building Management SystemDGT Discharge Gas TemperatureEHS Electric Heater StageEMM Energy Management ModuleEWT Entering Water TemperatureEXV Electronic Expansion ValveFC Free CoolingFCDC Free Cooling – Dry CoolerHSM Hydronic System ManagerLED Light Emitting DiodeLWT Leaving Water TemperatureOAT Outdoor Air TemperatureSCT Saturated Condensing TemperatureSST Saturated Suction TemperatureVFD Variable Frequency Drive
Abbreviation DescriptionLocal-Off mode / LOFF Operating type: Local Off Local-On mode / L-On Operating type: Local On Local-Schedule mode / L-SC Operating type: Local scheduleMaster mode / Mast Operating type: MasterNetwork mode / Net Operating type: NetworkRemote mode / Rem Operating type: Remote
AQUACIATPOWER En - 4
1.1 Safety guidelines
Installation, start-up and servicing of equipment can be hazardous if certain factors particular to the installation are not considered: operating pressures, electrical components, voltages, and the installation site (elevated plinths and built-up structures).
Only qualified installation engineers and fully trained technicians are authorised to install and start up the equipment.
All instructions and recommendations provided in the service guide, installation and operation manuals, as well as on tags and labels fixed to the equipment, components and other accompanying parts supplied separately must be read, understood and followed.
Failure to comply with the instructions provided by the manufacturer may result in injury or product damage.
IMPORTANT: Only qualified service engineers should be allowed to install and service the equipment.
1.2 Safety precautions
Only personnel qualified in accordance with IEC (International Electrotechnical Commission) recommendations may be permitted access to electrical components.
It is particularly recommended that all sources of electricity to the unit should be shut off before any work is begun. Shut off the main power supply at the main circuit breaker or isolator.
IMPORTANT: The equipment uses and emits electromagnetic signals. Tests have shown that the equipment conforms to all applicable codes with respect to electromagnetic compatibility.
CAUTION
RISK OF ELECTROCUTION! Even when the main circuit breaker or isolator is switched off, specific circuits may still be energised as they may be connected to a separate power source.
CAUTION
RISK OF BURNS! Electrical currents may cause components to get hot. Handle the power cable, electrical cables and conduits, terminal box covers and motor frames with great care.
2.1 Control system
AQUACIATPOWER chillers and heat pumps are equipped with the CONNECT TOUCH control that serves as a user interface and a configuration tool for controlling the chiller / heat pump operation.
AQUACIATPOWER LD-ST chillers and AQUACIATPOWER ILD-ST heat pumps are typically equipped with fixed speed fans, whereas AQUACIATPOWER LD-HE chillers and AQUACIATPOWER ILD-HE heat pumps use variable speed fans which reduce the unit energy use during occupied and unoccupied periods, provide condensing and evaporating pressure control and smooth fan start. The system may also control fixed speed pumps or variable speed pumps with a hydronic module.
IMPORTANT: The document may refer to optional components and certain functions, options, or accessories may not be available for the specific unit. Heating option applies only to heat pumps and cooling-only units equipped with a boiler.
2.2 System functionalities
The system controls the start-up of the compressors needed to maintain the desired heat exchanger entering and leaving water temperature. It constantly manages the operation of the fans in order to maintain the correct refrigerant pressure in each circuit and monitors safety devices that protect the unit against failure and guarantee its optimal functioning.
2.3 Operating modes
The control may operate in three independent modes: ● Local mode: The unit is controlled by commands from the
user interface. ● Remote mode: The unit is controlled by dry contacts. ● Network mode: The unit is controlled by networks
(Proprietary Protocol). Data communication cable is used to connect the unit to the proprietary protocol communication bus.
When the control operates autonomously (Local or Remote), it retains all of its control capabilities but does not offer any features of the Network.
CAUTION
Emergency stop! The Network emergency stop command stops the unit regardless of its active operating type.
2.4 CONNECT TOUCH control
The CONNECT TOUCH control system: ● Allows users to control the unit via the CONNECT TOUCH
user interface ● Provides web connectivity technology ● Includes the trending functionality ● Supports Enhanced Control Management (M2M, Cristo
Control, Power Control, Easy/Smart Control) for multiple chillers/heat pump configuration.
● Provides direct BMS integration capabilities (Modbus RTU, Modbus TCP/IP, BACnet/IP option or Lon option)
IMPORTANT: The LON option is incompatible with all functions that require Modbus RTU on RS485, e.g. M2M on RS485, Cristo Control, Power Control, Easy/Smart Control.
1 - SAFETY CONSIDERATIONS 2 - CONTROL OVERVIEW
En - 5 AQUACIATPOWER
3.1 CONNECT TOUCH overview
The CONNECT TOUCH system manages a number of mechanisms allowing the unit to operate effectively, including variable speed fans’ control, fixed or variable speed pumps’ control, etc.
The CONNECT TOUCH control system is used to control the following types of AQUACIATPOWER range units:
AQUACIATPOWER LD ST Standard cooling-only air-cooled chillersAQUACIATPOWER LD HE High efficiency cooling-only air-cooled chillersAQUACIATPOWER ILD ST Standard air-to-water reversible heat pumpsAQUACIATPOWER ILD HE High efficiency air-to-water reversible heat pumps
3.2 CONNECT TOUCH - features overview
FeatureCooling-only Chillers Reversible Heat Pumps
LD -ST series LD -HE series ILD -ST series ILD -HE seriesBMS connection ● ● ● ●5-inch touch screen ● ● ● ●Web connectivity ● ● ● ●E-mail transmission ● ● ● ●Occupied / Unoccupied mode management ● ● ● ●Trending ● ● ● ●Master/Slave control ● ● ● ●Diagnostics ● ● ● ●Cooling control ● ● ● ●Free cooling (dry cooler mgmt.) ○ ○ ○ ○Heating control - - ● ●Boiler heating control ○ ○ ○ ○Electric heating control - - ○ ○Partial heat recovery ○ ○ ○ ○Defrost mechanism - - ● ●Free defrost control - - ● ●Fixed speed fans ● - ● -Variable speed fans - ● - ●XtraFan - ○ - ○Anti-freeze protection ○ ○ ○ ○Fixed speed pump(s) ○ ○ ○ ○Variable speed pump(s) ○ ○ ○ ○
CommunicationProprietary protocol ● ● ● ●Modbus RTU ● ● ● ●Modbus TCP/IP ● ● ● ●BACnet IP ○ ○ ○ ○LonTalk ○ ○ ○ ○
● Supplied as standard○ Option- Not available
3 - CONTROL COMPONENTS
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4.1 Control boards
The electrical box includes all boards controlling the unit as well as the CONNECT TOUCH user interface.
Each circuit is by default fitted with one SIOB board used to manage all major inputs and outputs of the controller.
Options such as energy management module or free cooling (dry cooler management) require the installation of additional boards, i.e. EMM SIOB board for energy management module and FC dry cooler board for free cooling. Additionally, units with seven or eight fixed speed fans are fitted with an additional auxiliary 2 board “AUX2 board”.
All boards communicate via an internal bus.
4.2 Power supply to boards
All boards are supplied from a common 24 VAC supply referred to earth.
CAUTION
Maintain correct polarity (and grounded 0V) when connecting the power supply to the boards, otherwise the boards may be damaged.
In the event of a power supply interrupt, the unit restarts automatically without the need for an external command. However, any faults active when the supply is interrupted are saved and may in certain cases prevent a given circuit or the unit from restarting.
The main board continuously monitors the information received from various pressure and temperature probes and accordingly starts the program that controls the unit.
The number of boards available in the electrical box depends on the number of selected options.
4.3 Light Emitting Diodes on boards
All boards continuously check and indicate the proper operation of their electronic circuits. A light emitting diode (LED) lights on each board when it is operating properly.
● The red LED flashing for a two-second period indicates correct operation. A different rate indicates a board or a software failure.
● The green LED flashes continuously on all boards to show that the board is communicating correctly over its internal bus. If the green LED is not flashing, this indicates the internal bus wiring problem or a configuration issue.
4.4 Pressure transducers
Three types of transducers (high pressure, low pressure, water pressure) are used to measure various pressures in each circuit. These transducers deliver 0 to 5 VDC. They are connected to SIOB boards (circuit A and circuit B).
Discharge pressure transducers (high pressure type)
These transducers measure the discharge pressure in each circuit. They are used to control condensing pressure or high pressure load shedding. Discharge pressure sensors are mounted on the discharge line piping of each circuit.
Suction pressure transducers (low pressure type)
These transducers measure the suction pressure in each circuit. They are used to control EXV, evaporating pressure (in heating mode) and monitor suction pressure safeties related to the compressor operating envelope. Suction pressure sensors are located on the common suction piping of each circuit.
Pump inlet/outlet water pressure transducers (water pressure type, hydronic kit option)
These transducers measure the hydronic kit pump inlet/outlet water pressure and monitor the water flow. Pump inlet/outlet water pressure sensors are mounted on the optional hydronic kit.
4.5 Temperature sensors
Temperature sensors constantly measure the temperature of various components of the unit, ensuring the correct operation of the system.
Water heat exchanger entering and leaving water temperature sensors
The water heat exchanger entering and leaving water temperature sensors are used for capacity control and safety purposes.
Outdoor air temperature sensor
This sensor measuring the outdoor air temperature is used for start-up, setpoint temperature reset and frost control.
Suction gas temperature sensors
These sensors measure the suction gas temperature. They are used for the EXV control. Suction gas temperature sensors are located at the suction side of each circuit.
Master/slave water sensor (optional)
This sensor measures the common water temperature in the master/slave system capacity control. It is installed only in the case of master/slave units.
Defrost temperature sensors (heat pumps)
These sensors are used to determine the end of the defrost cycle for a given circuit.
Temperature setpoint reset sensor (Energy Management Module)
This sensor measures the space (room) temperature for the purpose of setpoint reset.
4 - HARDWARE
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4.6 Actuators
Electronic expansion valve
The electronic expansion valve (EXV) is used to adjust the refrigerant flow to changes in the operating conditions of the machine. The high degree of accuracy with which the piston is positioned provides precise control of the refrigerant flow and suction superheat.
Water flow switch
For units without internal pumps, a flow switch is mounted to ensure that the minimum flow rate required for the correct operation and protection of the system is maintained.
The minimum flow rate threshold depends on the unit size and is configured automatically at the start-up. If the flow switch fails, the alarm condition shuts off the unit.
Water heat exchanger pumps (optional)
The controller can regulate one or two fixed speed or variable speed water heat exchanger pumps and takes care of the automatic changeover between these pumps.
Four-way valve (heat pumps)
The control actuates the four-way valve for cooling / heating mode and defrosts' sessions.
4.7 Terminal block connections
Connections available at the user terminal block may vary depending on the selected options. The following table summarizes connections at the user terminal block.
IMPORTANT: Some contacts can be accessed only when the unit operates in Remote mode.
4.7.1 Volt-free contact (on/off and cooling/heating)
For chillers with a boiler or heat pumps, on/off contacts and cooling/heating contacts are as follows:
Off Cooling Heating AutoOn/Off contact open closed closed openCooling/heating contact open open closed closed
Off: Unit is stoppedCooling: Unit is allowed to start in CoolingHeating: Unit is allowed to start in Heating (chiller with boiler control or heat pump)Auto: Unit can run in Cooling or Heating in accordance with the changeover values. If the automatic changeover is enabled (Heat/Cool Select, GENUNIT – General Parameters), the operating mode is selected based on OAT.
4.7.2 Volt-free setpoint selection contact
This dry contact is used to switch between setpoints. It is active only when the control is in Remote mode.
Cooling HeatingStp1 Stp2 Auto Stp1 Stp2 Auto
Setpoint selection contact open closed - open closed -
Terminal block connections
Description Board Input/Output Connector RemarksOn/Off switch SIOB, circuit A DI-01 J1 Used for the unit On/Off control (Remote mode)
Heat/Cool switch SIOB, circuit A DI-04 J1 Used to switch between cooling and heating when the unit is in Remote mode (Heat pumps only)
Second setpoint switch SIOB, circuit A DI-02 J1 Used to switch between setpointsDemand limit switch 1 SIOB, circuit A DI-03 J1 Used to control demand limit Alarm relay SIOB, circuit A DO-05 J23 Indicates alarmsRunning relay SIOB, circuit A DO-06 J22 Indicates if the unit is ready to start or operatingDesuperheater demand SIOB, circuit B DI-04 J1 Heat recovery is allowedLock switch SIOB, circuit B DI-02 J1 Used for the customer safety loops
Customer pump 1 SIOB, circuit B DO-05 J23 The control can regulate one or two evaporator pumps and automatically change over between the two pumps
Customer pump 2 SIOB, circuit B DO-06 J22 The control can regulate one or two evaporator pumps and automatically change over between the two pumps
OptionalSetpoint reset control SIOB, circuit A AI-10 J9 Allows the user to reset the currently selected setpoint
Occupancy override SIOB, EMM DI-01 J1 Used to switch between occupied (closed contact) and unoccupied mode (open contact)
Demand limit switch 2 SIOB, EMM DI-02 J1 Used to control demand limitCustomer interlock SIOB, EMM DI-03 J1 Used for the customer safety loopsIce done contact SIOB, EMM DI-04 J1 Used to control the setpoint for ice storage in unoccupied modeCapacity limit control SIOB, EMM AI-10 J9 Used for capacity limitationChiller partially shutdown SIOB, EMM DO-05 J23 Indicates the shutdown of one of the circuitsChiller totally shutdown SIOB, EMM DO-06 J22 Indicates the unit shutdownChiller capacity running output(0 to 10 V) SIOB, EMM AO-01 J10 R eports the capacity percentage of the unit
Desuperheater customer pump SIOB, EMMDO-01 J2 The control can regulate a customer pump for heat recovery. The
connection has to be done between the pin DO-01 of connector J2 and the pin IN-01 of connector J4IN-01 J4
4 - HARDWARE
AQUACIATPOWER En - 8
4.7.3 Volt-free demand limit selection contact
Up to two dry contacts can be used to limit unit capacity. Note that the second contact is available only for units with the energy management module.
Capacity limitation with two contacts is as follows:
100% Limit 1 Limit 2 Limit 3
Demand limit 1 contact open closed open closed
Demand limit 2 contact open open closed closed
Please note that limit thresholds can be defined via the user interface in the Setpoint menu (see section 7.1).
4.7.4 Ice storage (Energy Management Module)
For units with the optional Energy Management Module, the control includes an additional setpoint (Ice setpoint) used for ice storage control.
Cooling setpoint
CSP1 CSP2 ICE_STP
Occupancy schedule occupied unoccupied unoccupied
Ice done switch open/closed closed open
4 - HARDWARE
En - 9 AQUACIATPOWER
5 - HOW TO USE THE CONNECT TOUCH INTERFACE
①
⑯
⑮
⑬
⑭
⑫ ⑪
② ③ ④ ⑤ ⑥ ⑦
⑧
⑨
⑩
① Home button ⑨ Condenser fans ② Main menu button ⑩ Unit capacity③ Heat exchanger ⑪ EXV (Electronic Expansion Valve)④ Compressor ⑫ Setpoint⑤ Login button (restricted access to menus) ⑬ Unit status⑥ Start/Stop button ⑭ LWT (Leaving Water Temperature)⑦ Alarm button ⑮ EWT (Entering Water Temperature)⑧ OAT (Outdoor Air Temperature) ⑯ Water pump (optional)
Connections
Connections are located on the bottom of the controller.
USB Modbus*
(RS485)Power supply
(24 VAC)Ethernet Internal bus
(RS485)
Features of CONNECT TOUCH user interface � 5" colour touch screen with quick display of alarms, current
unit operating status, etc.
� Resistive touch screen technology
� Trending capability
� Web connectivity
� Custom language support
CAUTION
If the touch screen is not used for a long period of time, the Welcome screen is displayed, and then it goes blank. The control is always active and the operating mode remains unchanged. Press anywhere on the screen and the Welcome screen will be displayed.
* This RS485 bus can be used as a second internal bus for the connection of gateway. If it is the case, then Modbus RTU will NOT be available on this port.
AQUACIATPOWER En - 10
5 - HOW TO USE THE CONNECT TOUCH INTERFACE5.1 CONNECT TOUCH menu structure
Home Alarm Menu
Alarm Menu
Start / Stop
Unit Mode
Log in / Log outMain Menu
General Parameters
Inputs
Pressures
Pump Status
Configuration Menu
Temperatures
Outputs
Energy Management
Msc Status
Run Times
Trendings
Main Menu
Email Configuration
Modbus RTU Config. Modbus TCP/IP Config
Configuration Menu
Reset Alarms Current Alarms Alarm History
Alarm Menu
Network Parameters Menu
Basic access (0 = password)
Legend:
User password required
General Configuration
Schedule Menu
Control Identification
Pump Configuration
Broadcast Menu
Backup Configuration
Holiday Menu
Date/Time Configuration Network Parameters
Modes
Setpoint ConfigurationFC Dry Cooler Status
Reset Configuration
User Configuration
Energy Managemnt Config
IP Address Config
Major Alarm History
En - 11 AQUACIATPOWER
HOME SCREEN
Home button Main Menu button Back button
Home screen displayed Main Menu displayed Go back to the previous screen
Login button Start/Stop button Alarm button
Basic access Unit is stopped No alarm active on the unit
User access Unit is running
Blinking icon: Partial alarm (one circuit affected by the existing alarm) or Alert (no action taken on the unit)
Steady icon: Alarm(s) active on the unit
OTHER SCREENS
Login screen Parameters screen(s)
Login: Confirm advanced access login Save changes
Logout: Reset the user level access and go to the splash screen
Cancel your modifications
Force screen (override) Navigation buttons
Set force: Override the current command
(if possible)
Displayed when the menu includes more than one page: Go to the previous page
Remove force: Remove the forced commandDisplayed when the menu includes more than one page: Go to the next page
5.2 CONNECT TOUCH buttons
5 - HOW TO USE THE CONNECT TOUCH INTERFACE
AQUACIATPOWER En - 12
5.3 Read the welcome screenThe Welcome screen is the first screen shown after starting the user interface. It displays the application name as well as the current software version number.
① Home button② Software version number③ Information message box
� To exit the Welcome screen and go to the Home screen, press the Home button.
Information message boxThe information box displayed in the status bar at the bottom of the screen includes relevant messages regarding the current user action.
MESSAGE STATUSCOMMUNICATION FAILURE!
Equipment controller did not respond while reading the table content.
ACCESS DENIED! Equipment controller denies access to one of the tables.
LIMIT EXCEEDED! The value entered exceeds the parameter limit.Save changes? Modifications have been made. The exit must be
confirmed by pressing Save or Cancel.HIGHER FORCE IN EFFECT!
Equipment controller rejects Force or Auto command.
Too many users connected! Please try again later ...
Too many users connected at the same time (WEB INTERFACE ONLY).
5.4 Explore the synoptic screenThe Synoptic screen allows you to monitor the vapour-refrigeration cycle. The diagram indicates the current status of the unit, giving information on the unit capacity, the status of water heat exchanger pumps, and the pre-defined setpoint parameter.
All unit functions can be accessed by pressing the Main menu button.
IMPORTANT: The Synoptic screen display may vary depending on pumps configuration.
The bell located in the upper-right part of the screen lights when any fault is detected.
5.5 Start/Stop the unit
With the unit in the Local off mode:
To display the list of operating modes and select the required
mode, press the Start/Stop button in the upper-right corner of the Synoptic screen.
Local On Local On: The unit is in the local control mode and allowed to start.
Local Schedule Local Schedule: The unit is in the local control mode and allowed to start if the period is occupied.
Network Network: The unit is controlled by network commands and allowed to start if the period is occupied.
Remote Remote: The unit is controlled by external commands and allowed to start if the period is occupied.
Master Master: The unit operates as the master in the master/slave assembly and allowed to start if the period is occupied.
IMPORTANT:
When entering the menu, please note that the currently selected item corresponds to the last running operating mode.
This screen is displayed only when the unit is currently not running. If the unit was in the running state, then the Confirm stop message would be displayed.
① ② ③
HomeMain Menu Current control parameters
Start/StopLogin Alarms
5 - HOW TO USE THE CONNECT TOUCH INTERFACE
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To start the unit1. Press the Start/Stop button.2. Select the required Machine Mode.3. The Welcome screen will be displayed.
To stop the unit1. Press the Start/Stop button.2. Confirm the unit shutdown by pressing Confirm Stop or
cancel the unit shutdown by pressing the Back button.
5.6 Set the schedule
The control incorporates two time schedules, where the first one (OCCPC01S) is used for controlling the unit start/stop, whereas the second one (OCCPC02S) is used for controlling the dual setpoint (Setpoint 1 used in Occupied mode / Setpoint 2 used in Unoccupied mode).
The control offers the user the possibility of setting eight occupancy periods where each occupancy period includes the following elements to be defined: � Day of the week: Select the days when the period is
occupied. � Occupancy time ("occupied from" to "occupied to"): Set
occupancy hours for the selected days. � Timed Override Extension: Extend the schedule if necessary.
This parameter can be used in the case of some unplanned events. Example: If the unit is normally scheduled to run between 8:00 to 18:00, but one day you want the air-conditioning system to operate longer, then set this timed override extension. If you set the parameter to "2", then the occupancy will end at 20:00.
NOTE: Time override extension is available only with the optional Energy Management Module.
To set the unit start/stop schedule1. Go to the Main menu.2. Navigate to the Configuration menu (logged-in users only)
and select Schedule Menu (SCHEDULE).3. Go to OCCPC01S.4. Select appropriate check boxes to set the unit occupancy
on specific days.5. Define the time of occupancy.6. When the time schedule is set, the selected period will be
presented in the form of the green band on the timeline. 7. Press the Save button to save your changes or the Cancel
button to exit the screen without making modifications.
① Selection of days for the time schedule② Start/end of the schedule③ Save④ Cancel⑤ Previous time period⑥ Next time period
IMPORTANT: Only logged-in users are allowed to access the Configuration menu.
③ ④ ⑤
①②
⑥
5 - HOW TO USE THE CONNECT TOUCH INTERFACE
AQUACIATPOWER En - 14
Each program is in unoccupied mode unless a schedule time period is active.
If two periods overlap and are both active on the same day, the occupied mode takes priority over the unoccupied period.
Example: Schedule setting
Hour MON TUE WED THU FRI SAT SUN HOL0:00 P11:00 P12:00 P13:004:005:006:007:00 P2 P2 P3 P4 P4 P58:00 P2 P2 P3 P4 P4 P59:00 P2 P2 P3 P4 P4 P510:00 P2 P2 P3 P4 P4 P511:00 P2 P2 P3 P4 P4 P512:00 P2 P2 P3 P4 P413:00 P2 P2 P3 P4 P414:00 P2 P2 P3 P4 P415:00 P2 P2 P3 P4 P416:00 P2 P2 P3 P4 P417:00 P2 P2 P318:00 P319:00 P320:00 P3 P621:0022:0023:00
MON: MondayTUE: TuesdayWED: WednesdayTHU: ThursdayFRI: FridaySAT: SaturdaySUN: SundayHOL: Holiday
Period / Schedule Starts at Stops at Active on (days)P1: Period 1 0:00 3:00 MondayP2: Period 2 7:00 18:00 Monday + TuesdayP3: Period 3 7:00 21:00 WednesdayP4: Period 4 7:00 17:00 Thursday + FridayP5: Period 5 7:00 12:00 SaturdayP6: Period 6 20:00 21:00 HolidaysP7: Period 7 Not used in this exampleP8: Period 8 Not used in this example
5.7 Manage display settings
The User Login screen allows the user to do any of the following: - Select the language of the controller. - Change the system of measurement (imperial or metric). - Gain access to more control options.
To access the User Login screen, press the Login button
in the upper-right corner of the Synoptic screen.
① Cursor indicating the selected language② Logged-in button③ Logged-off button④ Password dialog box⑤ System of measurement: Metric/Imperial
5.7.1 User login
Only logged-in users can access configurable unit parameters. By default, user password is "11".
To log in as user1. Press the Login button to open User Login Screen. 2. Press the Password box.3. A dialog box appears ("keyboard view"). Provide the
password (11) and press OK. 4. The User Login screen appears.5. Press the Logged-in button to save your changes or
the Logged-off button to exit the screen without making modifications.
NOTE: You may also leave the screen by pressing the Back button. Your changes will be saved.
Security access settings � User-level security ensures that only authorised users
are allowed to modify critical unit parameters. � Only logged-in users are allowed to access the
Configuration menu. � It is strongly recommended to change the default
password of the user interface to exclude the possibility of changing any parameters by an unqualified person.
� Only people qualified to manage the unit should be familiarized with the password.
Occupied
Unoccupied
② ③ ④
⑤
①
5 - HOW TO USE THE CONNECT TOUCH INTERFACE
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5.7.2 Password change
User password can be modified in the User Configuration menu.
To change your password1. Go to the Main menu.2. Navigate to the Configuration menu (logged-in users only)
and select User Configuration (USERCONF).
3. Select the User Password box and provide your new password.
4. Press OK.The User Configuration screen appears.5. Press the Save button to save your changes or the Cancel
button to exit the screen without making modifications
5.7.3 Display language
Display language can be modified in the User Login Screen on the user interface.
To change a display language1. Press the Login button to open User Login Screen.2. Select the new language of the display.3. Press the Logged-in button to save your changes or
the Logged-off button to exit the screen without making modifications.
NOTE: You may also leave the screen by pressing the Back button. Your changes will be saved.
The CONNECT TOUCH control system allows users to add new languages to the control. To learn more about language customization, please contact your local Manufacturer representative.
5.7.4 System of measurement
The control offers the possibility of selecting the system of measurement displayed on the user interface (metric / imperial).
To change a system of measurement1. Press the Login button to open User Login Screen.2. Select the system of measurement (metric or imperial).3. Press the Logged-in button to save your changes or
the Logged-off button to exit the screen without making modifications.
NOTE: You may also leave the screen by pressing the Back button. Your changes will be saved.
5.8 Monitor unit parameters
The Main menu screen provides access to the main control parameters, including general parameters, inputs and outputs status, etc.
� To access the menu, press the Main menu button located in the upper-left part of the Synoptic screen.
� Specific unit parameters can be accessed by pressing the icon corresponding to the desired category.
� To go back to the Synoptic screen, press the Home button.
General unit parameters
The General parameters screen provides access to a set of general unit parameters.
� To access the General parameters screen, go to the Main
menu and select General Parameters (GENUNIT).
� Press the Up/Down buttons to navigate between the screens.
① Forceable point: In this example, it is used to change the unit mode – Cooling / Heating / Automatic changeover.
①
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5.9 Modify unit parameters
The Configuration menu gives access to a number of user-modifiable parameters such as pump configuration, schedule menu, etc. The Configuration menu is password-protected.
� To access the Configuration menu, press the Main menu
button located in the upper-left part of the Synoptic
screen, and then find and press Configuration Menu. � Press the field corresponding to the parameter to be
modified and introduce all the necessary changes. � Press the Up/Down buttons to navigate between the
screens. � Once all the necessary modifications have been made,
press the Save button to save your changes or the Cancel button to exit the screen without making modifications.
5.10 Override system configuration
In some cases it is possible to override system configuration. The override screen provides the option to issue the command overriding the current operation of the unit.
To access the override screen, press the forceable point of the data screen. Note that not all parameters can be overridden by the control.
① Forced value② Set force③ Auto
①
② ③
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5.11 Analyse history trends
The Trendings screen allows you to monitor a set of selected parameters. � To access the Trendings screen, go to the Main menu and
select Trendings (TRENDING).
� Select the parameters to be displayed and press the Save button in the lower-left part of the screen.
� Press the Settings button to adjust time and date
settings for the Trendings display.
IMPORTANT: Please make sure that dates are not out of range (not existing dates); otherwise, an error message may be displayed.
Press or to navigate across the timeline or press
or to go to the beginning or the end of the selected
period.
Press the Zoom in button to magnify the view or the
Zoom out button to expand the viewed area.
Press the Refresh button to reload data.
5 - HOW TO USE THE CONNECT TOUCH INTERFACE
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6.1 Web interface
The CONNECT TOUCH control can be accessed via a web browser (Internet Explorer, Mozilla Firefox, etc.).
Connection is from a PC using a web browser with Java.
CAUTION
Use firewalls and VPN for secure connection.
6.2 Open the web interface
To access the CONNECT TOUCH control, enter the IP address of the unit in the address bar of the web browser.
Unit default address: 169.254.0.1
This address can be changed.
IMPORTANT: Only two web connections can be authorised at the same time.
CAUTION
For security reasons the unit cannot be started / stopped via the web interface.
All other operations, including monitoring unit parameters or unit configuration, can be performed via the web browser interface.
6.3 Manage web browser settings
Minimum web browser configuration: � Internet Explorer (version 8 or higher) or Mozilla Firefox
(version 26 or higher). In the advanced connection options add the unit IP address to the exceptions list. Do not use a proxy server.
� Java platform (version 6 or higher). In the control panel, clear the Keep temporary files on my computer check box and use a direct connection.
IMPORTANT: Two users can be connected simultaneously with no priority between them. Note that the last modification is always taken into account.
Web connection features: � Technical documentation � Two users controlling the unit simultaneously
6.4 Read technical documentation
When using the CONNECT TOUCH control via a PC web browser, you may easily access all technical documents related to the product and its components.
Once you connect to the CONNECT TOUCH control, click the
Technical documentation button in order to see a list of documents related to the unit.
Technical documentation includes the following documents: � Spare parts documentation: The list of spare parts
included in the unit with reference, description and drafting. � Misc: Documents such as electrical plans, dimension
plans, unit certificates. � PED: Pressure Equipment Directive. � IOM: Installation operation and maintenance manual,
controls installation/maintenance manual.
Click the Help button to get access to BACnet user guide.
6 - WEB CONNECTION
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7 - SETTING UP CONNECT TOUCH – DISPLAY MENU STRUCTURE7.1 Main menu
Icon Displayed text* Description Name
General Parameters General parameters GENUNIT
Temperatures Temperatures TEMP
Pressures Pressures PRESSURE
Inputs Inputs status INPUTS
Outputs Outputs status OUTPUTS
Pump Status Pump status PUMPSTAT
Run Times Run times RUNTIME
Modes Modes status MODES
Energy Management Energy management status EMM_STAT
FC Dry Cooler Status FC Dry Cooler status FCDC_ST
Msc Status Miscellaneous parameters status MSC_STAT
Trendings Trendings ** TRENDING
Setpoint Configuration Setpoints configuration SETPOINT
Configuration Menu Configuration menu (see section 7.2) CONFIG
* Depends on the selected language (English by default).
** The Trendings menu is displayed in form of a graph; hence, it is not included in this section of the document (see section 5.11).
CAUTION
Since specific units may not include additional features, some tables may contain parameters that cannot be configured for a given unit.
AQUACIATPOWER En - 20
7 - SETTING UP CONNECT TOUCH – DISPLAY MENU STRUCTURE
General Parameters Menu – GENUNIT
Name Status Default Unit Displayed text* Description1 STATUS 0 to 2 0 - Local=0 Net.=1 Remote=2 Operating mode:
0 = Local1 = Network2 = Remote
2 CHIL_S_S - - - Run Status Unit running status: Off, Stopping, Delay,Running, Ready, Override, Tripout, Test, Runtest
3 CHIL_OCC disable/enable disable - Net.: Cmd Start/Stop Unit start/stop via Network: When the unit is in Network mode, start/stop command can be forced
4 min_left no/yes no - Net.: Cmd Occupied Unit time schedule via Network: When the unit is in Network mode, the forced value can be used instead of the real occupancy state
5 HEATCOOL - - min Minutes Left for Start Minutes before the unit start-up6 HC_SEL Cool/Heat/
Standby/Both- - Heat/Cool status Heating/cooling status
7 0 to 2 0 - Heat/Cool Select Heating/cooling selection8 SP_SEL 0=Cool, 1=Heat, 2=Auto 0 = Cooling
1 = Heating2 = Automatic heating/cooling control
9 0 to 2 0 - Setpoint Select Setpoint selection10 SP_OCC 0=Auto, 1=Spt1, 2=Spt2 0 = Automatic setpoint selection
1 = Setpoint 1 (active during occupied period)2 = Setpoint 2 (active during unoccupied period)
11 CAP_T no/yes yes - Setpoint Occupied? Setpoint status: 0 = Unoccupied1 = Occupied
12 CAPA_T - - % Unit Total Capacity Total unit capacity13 CAPB_T - - % Cir A Total Capacity Total capacity, circuit A14 SP - - % Cir B Total Capacity Total capacity, circuit B15 CTRL_PNT - - °C / °F Current Setpoint Current setpoint16 CTRL_WT - - °C / °F Control Point Control point: Water temperature that the unit must produce17 OAT - - °C / °F Control Water Temp Controlled water temperature18 EMSTOP - - °C / °F Outdoor Air Temp Outdoor air temperature19 DEM_LIM disable/enable disable - Emergency Stop Emergency stop: Used to stop the unit regardless of its active operating
type20 LAG_LIM 0 to 100 0 % Active Demand Limit Val Active demand limit value: When the unit is in Network mode, the
minimum value will be used compared to the status of the external limit switch contact and the demand limit switch setpoint
21 EMSTOP 0 to 100 0 % Lag Capacity Limit Value Lag capacity limit value: Value that is forced by the master chiller (master/slave assembly)
* Depends on the selected language (English by default).
Temperatures Menu – TEMP
Name Status Default Unit Displayed text* Description1 COOL_EWT - - °C / °F Cooler Entering Fluid Evaporator entering water temperature: Used for capacity control2 COOL_LWT - - °C / °F Cooler Leaving Fluid Evaporator leaving water temperature: Used for capacity control3 OAT - - °C / °F Outdoor Air Temp Outdoor air temperature: Used to determine a number of control
mechanisms such as heat/cool changeover, heater operation, defrost cycle, and more
4 SCT_A - - °C / °F Saturated Cond Tmp cir A Saturated condensing temperature, circuit A5 SST_A - - °C / °F Saturated Suction Temp A Saturated suction temperature, circuit A6 SUCT_A - - °C / °F Compressor Suction Tmp A Compressor suction temperature, circuit A7 SH_A - - ^C / ^F Suction Superheat Tmp A Suction superheat temperature, circuit A8 DEFRT_A - - °C / °F Defrost Temperature A Defrost temperature, circuit A (heat pumps)9 SCT_B - - °C / °F Saturated Cond Tmp cir B Saturated condensing temperature, circuit B10 SST_B - - °C / °F Saturated Suction Temp B Saturated suction temperature, circuit B11 SUCT_B - - °C / °F Compressor Suction Tmp B Compressor suction temperature, circuit B12 SH_B - - ^C / ^F Suction Superheat Tmp B Suction superheat temperature, circuit B13 DEFRT_B - - °C / °F Defrost Temperature B Defrost temperature, circuit B (heat pumps)14 SPACETMP - - °C / °F Optional Space Temp Space (room) temperature: Applies to units with the optional Energy
Management Module15 CHWSTEMP - - °C / °F Cold Water System Temp Cold water system temperature16 EBOXTEMP - - °C / °F Electrical Box Temp Electrical box temperature
* Depends on the selected language (English by default).
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Pressures Menu – PRESSURE
Name Status Default Unit Displayed text* Description1 DP_A - - kPa / PSI Discharge Pressure A Compressor discharge pressure, circuit A2 SP_A - - kPa / PSI Main Suction Pressure A Compressor suction pressure, circuit A3 DP_B - - kPa / PSI Discharge Pressure B Compressor discharge pressure, circuit B4 SP_B - - kPa / PSI Main Suction Pressure B Compressor suction pressure, circuit B5 PUMP_EWP - - kPa / PSI Inlet unit water pres. Pump entering water pressure6 PUMP_LWP - - kPa / PSI Outlet unit water pres. Pump leaving water pressure
* Depends on the selected language (English by default).
Inputs Menu – INPUTS
Point name Status Default Unit Displayed text* Description1 ONOFF_SW open/close open - Remote On/Off Switch Remote on/off switch2 HC_SW open/close open - Remote HeatCool Switch Remote heating/cooling selection switch3 SETP_SW open/close open - Remote Setpoint Switch Remote setpoint selection switch4 LIM_SW1 open/close open - Limit Switch 1 Demand limit switch 15 LIM_SW2 open/close open - Limit Switch 2 Demand limit switch 2 (Energy Management Module)6 LOCK_SW open/close open - Customer Interlock Customer interlock: When the contact is closed, the unit will be stopped
with no delay. The switch is provided on the customer's terminal block of the optional Energy Management Module
7 FLOW_SW open/close open - Flow Switch Status Flow switch status8 DSHTR_SW open/close open - Desuper heater demand Desuperheater status9 REM_LOCK open/close open - Remote Interlock Status Remote interlock status10 REVPH_SW open/close open - Reverse Phase Detection Reverse phase detection11 cp_a1_f open/close open - Compressor A1 failure Compressor A1 failure12 cp_a2_f open/close open - Compressor A2 failure Compressor A2 failure13 cp_a3_f open/close open - Compressor A3 failure Compressor A3 failure14 cp_a4_f open/close open - Compressor A4 failure Compressor A4 failure15 HP_SW_A open/close open - High Pressure Switch A High pressure switch, circuit A 16 LEAK_A - - V Leakage Detector Val A Leakage detector, circuit A17 cp_b1_f open/close open - Compressor B1 failure Compressor B1 failure18 cp_b2_f open/close open - Compressor B2 failure Compressor B2 failure19 cp_b3_f open/close open - Compressor B3 failure Compressor B3 failure20 cp_b4_f open/close open - Compressor B4 failure Compressor B4 failure21 HP_SW_B open/close open - High Pressure Switch B High pressure switch, circuit B 22 bacdongl no/yes no - BACnet Dongle BACnet dongle: Used when the unit is incorporated into the BACnet
network23 LEAK_B - - V Leakage Detector Val B Leakage detector, circuit B
* Depends on the selected language (English by default).
7 - SETTING UP CONNECT TOUCH – DISPLAY MENU STRUCTURE
AQUACIATPOWER En - 22
Outputs Menu – OUTPUTS
Point name Status Default Unit Displayed text* Description1 CP_A1 off/on off - Compressor A1 Compressor A1 command2 CP_A2 off/on off - Compressor A2 Compressor A2 command3 CP_A3 off/on off - Compressor A3 Compressor A3 command4 CP_A4 off/on off - Compressor A4 Compressor A4 command5 FAN_A1_0 off/on off - Fan A1 Low Speed Fan A1 low speed (optional)6 FAN_A1_1 off/on off - Fan A1 High Speed Fan A1 command7 FAN_A2 off/on off - Fan A2 Fan A2 command8 FAN_A3 off/on off - Fan A3 Fan A3 command9 FAN_A4 off/on off - Fan A4 Fan A4 command10 FAN_ST_A 0 to 6 0 - Fan Staging Number Cir A Current fan stage of circuit A11 VARFAN_A 0 to 100 0 % Variable fan A command Variable fan A command12 EXV_A 0 to 100 0 % EXV position Circuit A EXV position, circuit A13 REV_A off/on off - 4-way Refrig. Valve A 4-way refrigerant valve, circuit A: Used to manage cooling / heating /
defrost operation (heat pumps)14 HD_HTR_A off/on off - Compressor Head Heater A Compressor head heater, circuit A (only units with variable speed fans
controlled through the internal bus)15 CP_B1 off/on off - Compressor B1 Compressor B1 command16 CP_B2 off/on off - Compressor B2 Compressor B2 command17 CP_B3 off/on off - Compressor B3 Compressor B3 command18 CP_B4 off/on off - Compressor B4 Compressor B4 command19 FAN_B1_0 off/on off - Fan B1 Low Speed Fan B1 low speed (optional)20 FAN_B1_1 off/on off - Fan B1 High Speed Fan B1 command21 FAN_B2 off/on off - Fan B2 Fan B2 status22 FAN_B3 off/on off - Fan B3 Fan B3 status23 FAN_B4 off/on off - Fan B4 Fan B4 status24 FAN_ST_B 0 to 6 0 - Fan Staging Number Cir B Current fan stage of circuit B25 VARFAN_B 0 to 100 0 % Variable fan B command Variable fan B command26 EXV_B 0 to 100 0 % EXV position Circuit B EXV position, circuit B27 REV_B off/on off - 4-way Refrig. Valve B 4-way refrigerant valve, circuit B: Used to manage cooling / heating /
defrost operation (heat pumps)28 HD_HTR_B off/on off - Compressor Head Heater B Compressor head heater, circuit B (only units with variable speed fans
controlled through the internal bus)29 ALARM off/on off - Alarm Relay Status Alarm relay status30 RUNNING off/on off - Running Relay Status Running relay status31 ALERT off/on off - Alert Relay State Alert relay status32 SHUTDOWN off/on off - Shutdown Indicator State Shutdown indicator state33 COOL_HTR off/on off - Cooler heater Water exchanger heater34 SET_FLOW off/on off - Flow Switch Setpoint cfg Flow switch setpoint configuration
* Depends on the selected language (English by default).
Pump Status Menu – PUMPSTAT
Name Status Default Unit Displayed text* Description1 ROTWPUMP no/yes no - Rotate Water Pumps Now? Water pumps rotation2 WPUMP_1 off/on off - Water Pump #1 Command Water pump 1 control3 WPUMP_2 off/on off - Water Pump #2 Command Water pump 2 control4 wp_out - - kPa / PSI Outlet Water Pres.(cor) Outlet water pressure (corrected by temperature) Applies to units with
the hydronic kit option5 wp_in - - kPa / PSI Inlet Water Pres.(cor) Inlet water pressure (corrected by temperature) Applies to units with the
hydronic kit option6 WP_CAL no/yes no - Water Pres. Calibration? Water pressure calibration7 wp_off - - kPa / PSI Water Pressure Offset Water pressure offset8 wp_filt - - kPa / PSI Delta Pressure Filter Delta pressure filter9 wp_min - - kPa / PSI Minimum Water Pressure Minimum water pressure10 flow - - l/s / GPS Water Flow Water flow rate11 dt_stp - - ^C / ^F Water Delta T Setpoint Water delta temperature setpoint12 delta_t - - ^C / ^F Current Water Delta T Current water delta temperature13 dp_stp - - kPa / PSI Water Delta P Setpoint Water delta pressure setpoint14 delta_p - - kPa / PSI Current Water Delta P Current water delta pressure15 DRV_OUT 0 to 100 0 % Drive Output Drive output
* Depends on the selected language (English by default).
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Run Times Menu – RUNTIME
Name Status Default Unit Displayed text* Description1 hr_mach - - hour Machine Operating Hours Unit operating hours2 st_mach - - - Machine Starts Number Number of unit starts3 hr_cp_a1 - - hour Compressor A1 Hours Operating hours, compressor A14 hr_cp_a2 - - hour Compressor A2 Hours Operating hours, compressor A25 hr_cp_a3 - - hour Compressor A3 Hours Operating hours, compressor A36 hr_cp_a4 - - hour Compressor A4 Hours Operating hours, compressor A47 hr_cp_b1 - - hour Compressor B1 Hours Operating hours, compressor B18 hr_cp_b2 - - hour Compressor B2 Hours Operating hours, compressor B29 hr_cp_b3 - - hour Compressor B3 Hours Operating hours, compressor B310 hr_cp_b4 - - hour Compressor B4 Hours Operating hours, compressor B411 st_cp_a1 - - - Compressor A1 Starts Number of starts, compressor A112 st_cp_a2 - - - Compressor A2 Starts Number of starts, compressor A213 st_cp_a3 - - - Compressor A3 Starts Number of starts, compressor A314 st_cp_a4 - - - Compressor A4 Starts Number of starts, compressor A415 st_cp_b1 - - - Compressor B1 Starts Number of starts, compressor B116 st_cp_b2 - - - Compressor B2 Starts Number of starts, compressor B217 st_cp_b3 - - - Compressor B3 Starts Number of starts, compressor B318 st_cp_b4 - - - Compressor B4 Starts Number of starts, compressor B419 hr_fana1 - - hour Fan A1 Hours Operating hours, fan A120 hr_fana2 - - hour Fan A2 Hours Operating hours, fan A221 hr_fana3 - - hour Fan A3 Hours Operating hours, fan A322 hr_fana4 - - hour Fan A4 Hours Operating hours, fan A423 hr_fanb1 - - hour Fan B1 Hours Operating hours, fan B124 hr_fanb2 - - hour Fan B2 Hours Operating hours, fan B225 hr_fanb3 - - hour Fan B3 Hours Operating hours, fan B326 hr_fanb4 - - hour Fan B4 Hours Operating hours, fan B427 hr_pump1 - - hour Water Pump #1 Hours Operating hours, water pump 128 hr_pump2 - - hour Water Pump #2 Hours Operating hours, water pump 229 hr_hrpmp - - hour Reclaim Pump Hours NOT applicable to your unit. Please ignore this parameter.30 hrfcpmpa - - hour Refrig. Pump Cir A Hours Operating hours, refrigerant pump, circuit A31 hrfcpmpb - - hour Refrig. Pump Cir B Hours Operating hours, refrigerant pump, circuit B32 nb_defra - - - Circuit A Defrost Number Defrost session number, circuit A33 nb_defrb - - - Circuit B Defrost Number Defrost session number, circuit B
* Depends on the selected language (English by default).
7 - SETTING UP CONNECT TOUCH – DISPLAY MENU STRUCTURE
AQUACIATPOWER En - 24
Modes Menu – MODES
Name Status Default Unit Displayed text* Description1 m_delay no/yes no - Start Up Delay In Effect Start-up delay in effect2 m_2stpt no/yes no - Second Setpoint In Use Second setpoint in use: The setpoint used during unoccupied
periods3 m_reset no/yes no - Reset In Effect Setpoint reset active4 m_demlim no/yes no - Demand limit active Demand limit active5 m_rpload no/yes no - Ramp Loading Active Ramp loading active6 m_whtr no/yes no - Water Exchanger Heater Water exchanger heater active7 m_pmprot no/yes no - Water Pump Rotation Water pump rotation8 m_pmpper no/yes no - Pump Periodic Start Pump periodic start9 m_lowsca no/yes no - Low Suction Circuit A Low suction, circuit A10 m_lowscb no/yes no - Low Suction Circuit B Low suction, circuit B11 m_hidgta no/yes no - High DGT Circuit A High DGT, circuit A12 m_hidgtb no/yes no - High DGT Circuit B High DGT, circuit B13 m_hiprsa no/yes no - High Press Override CirA High pressure override, circuit A14 m_hiprsb no/yes no - High Press Override CirB High pressure override, circuit B15 m_lowsha no/yes no - Superheat Override Cir A Superheat override, circuit A16 m_lowshb no/yes no - Superheat Override Cir B Superheat override, circuit B17 m_dltp_a no/yes no - Low Delta Press Cir A Low delta pressure, circuit A18 m_dltp_b no/yes no - Low Delta Press Cir B Low delta pressure, circuit B19 m_night no/yes no - Night Low Noise Active Night low noise active20 m_hsm no/yes no - System Manager Active System Manager active21 m_slave no/yes no - Master Slave Active Master/slave mode active22 m_autoch no/yes no - Auto Changeover Active Automatic changeover active23 m_defr_a no/yes no - Defrost Active Circuit A Defrost mode active, circuit A (heat pumps)24 m_defr_b no/yes no - Defrost Active Circuit B Defrost mode active, circuit B (heat pumps)25 m_recl_a no/yes no - Reclaim Active Circuit A NOT applicable to your unit. Please ignore this parameter.26 m_recl_b no/yes no - Reclaim Active Circuit B NOT applicable to your unit. Please ignore this parameter.27 m_free_a no/yes no - Free Cooling Active A NOT applicable to your unit. Please ignore this parameter.28 m_free_b no/yes no - Free Cooling Active B NOT applicable to your unit. Please ignore this parameter.29 m_boiler no/yes no - Boiler Active Boiler active30 m_ehs no/yes no - Electric Heater Active Electric heater active31 m_ewtlck no/yes no - Heating Low EWT Lockout Heating low EWT lockout32 m_ice no/yes no - Ice Mode In Effect Ice mode active
* Depends on the selected language (English by default).
Energy Management Menu – EMM_STAT
Name Status Default Unit Displayed text* Description1 OCC_OVSW open/close open - Occupied Override Switch Occupied override switch status2 ICE_SW open/close open - Ice Done Storage Switch Ice done storage switch status3 SP_RESET 4 to 20 0 mA Setpoint Reset Signal Setpoint reset signal4 LIM_4_20 4 to 20 0 mA Limit 4-20mA Signal Limit 4-20 mA signal5 COOL_NRG - - kWh Energy consumed in Cool Energy consumed in cooling mode6 HEAT_NRG - - kWh Energy consumed in Heat Energy consumed in heating mode7 CAPT_010 - - V Chiller Capacity Running Chiller capacity running: 0 to10 VDC signal corresponding to
0-100% capacity8 BOILER off/on off - Boiler Output Boiler output9 EHS1 off/on off - Electrical Heat Stage 1 Electric heater stage 1 (heat pumps)10 EHS2 off/on off - Electrical Heat Stage 2 Electric heater stage 2 (heat pumps)11 EHS3 off/on off - Electrical Heat Stage 3 Electric heater stage 3 (heat pumps)12 EHS4 off/on off - Electrical Heat Stage 4 Electric heater stage 4 (heat pumps)13 ALERT off/on off - Alert Relay Status Alert relay status14 DSH_PUMP off/on off - Desuperheater Pump Desuperheater pump status (partial heat reclaim)
* Depends on the selected language (English by default).
7 - SETTING UP CONNECT TOUCH – DISPLAY MENU STRUCTURE
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FC Dry Cooler Status Menu – FCDC_ST
Name Status Default Unit Displayed text* Description
1 fdc_oat - - °C / °F FC Dry Cooler OAT Free Cooling / Dry cooler: OAT2 fdc_lwt - - °C / °F FCDC Leaving Water Temp Free Cooling / Dry Cooler: Leaving water temperature3 fdcWloop - - °C / °F FCDC Water Loop Temp Free Cooling / Dry Cooler: Water loop temperature4 m_fcdc no/yes no - FC Dry Cooler Active Free Cooling / Dry Cooler status5 fdc_cap 0 to 100 0 % FC Dry Cooler Capacity Free Cooling / Dry Cooler capacity6 fdcFanSt 0 to 7 0 - FC Dry Cooler Fan Stage Free Cooling / Dry Cooler fan stage7 fdcFanSp 0 to 100 0 % FCDC VFD Speed Free Cooling / Dry Cooler: Fan speed8 fdc_hour - - hour FCDC Operating Hours Free Cooling / Dry cooler: Number of operating hours9 fdcFan1s - - - FCDC Fan Stage 1 Start FCDC / Fan stage 1: Number of starts10 fdcFan1h - - hour FCDC Fan Stage 1 Hours FCDC / Fan stage 1: Number of operating hours11 fdcFan2s - - - FCDC Fan Stage 2 Start FCDC / Fan stage 2: Number of starts12 fdcFan2h - - hour FCDC Fan Stage 2 Hours FCDC / Fan stage 2: Number of operating hours13 fdcFan3s - - - FCDC Fan Stage 3 Start FCDC / Fan stage 3: Number of starts14 fdcFan3h - - hour FCDC Fan Stage 3 Hours FCDC / Fan stage 3: Number of operating hours15 fdcFan4s - - - FCDC Fan Stage 4 Start FCDC / Fan stage 4: Number of starts16 fdcFan4h - - hour FCDC Fan Stage 4 Hours FCDC / Fan stage 4: Number of operating hours17 fdcFan5s - - - FCDC Fan Stage 5 Start FCDC / Fan stage 5: Number of starts18 fdcFan5h - - hour FCDC Fan Stage 5 Hours FCDC / Fan stage 5: Number of operating hours19 fdcFan6s - - - FCDC Fan Stage 6 Start FCDC / Fan stage 6: Number of starts20 fdcFan6h - - hour FCDC Fan Stage 6 Hours FCDC / Fan stage 6: Number of operating hours21 fdcFan7s - - - FCDC Fan Stage 7 Start FCDC / Fan stage 7: Number of starts22 fdcFan7h - - hour FCDC Fan Stage 7 Hours FCDC / Fan stage 7: Number of operating hours
* Depends on the selected language (English by default).
Msc Status Menu – MSC_STAT
Name Status Default Unit Displayed text* Description
1 m_ecopmp no/yes no - Eco Pump Mode Active Eco pump mode status: When this mode is active, the pump is stopped periodically when the unit is in Standby
* Depends on the selected language (English by default).
7 - SETTING UP CONNECT TOUCH – DISPLAY MENU STRUCTURE
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Setpoint Configuration Menu – SETPOINT
Name Status Default Unit Displayed text* Description1 csp1 -28.98 to 26.35
-20.0 to 78.86.8644.0
°C°F
Cooling Setpoint 1 Cooling setpoint 1
2 csp2 -28.98 to 26.35-20.0 to 78.8
6.8644.0
°C°F
Cooling Setpoint 2 Cooling setpoint 2
3 ice_sp -28.98 to 26.35-20.0 to 78.8
6.8644.0
°C°F
Cooling Ice Setpoint Cooling ice setpoint
4 cramp_sp 0.11 to 1.120.2 to 2.0
0.561.0
^C^F
Cooling Ramp Loading Cooling ramp loading
5 hsp1 20.30 to 63.6468.0 to 145.4
38.22100
°C°F
Heating Setpoint 1 Heating setpoint 1
6 hsp2 20.30 to 63.6468.0 to 145.4
38.22100
°C°F
Heating Setpoint 2 Heating setpoint 2
7 hramp_sp 0.11 to 1.120.2 to 2.0
0.561.0
^C^F
Heating Ramp Loading Heating ramp loading
8 cauto_sp 4.06 to 50.5439.0 to 122.0
24.2275.0
°C°F
Cool Changeover Setpt Cooling changeover setpoint
9 hauto_sp 0.14 to 46.6232.0 to 115.0
18.0664.0
°C°F
Heat Changeover Setpt Heating changeover setpoint
10 lim_sp1 0 to 100 100 % Switch Limit Setpoint 1 Switch limit setpoint 111 lim_sp2 0 to 100 100 % Switch Limit Setpoint 2 Switch limit setpoint 212 lim_sp3 0 to 100 100 % Switch Limit Setpoint 3 Switch limit setpoint 313 hr_stp 35.42 to 50.54
95.0 to 122.050.54122.0
°C°F
Heat Reclaim Setpoint Heat reclaim setpoint
14 hr_deadb 2.80 to 15.125.0 to 27.0
5.049.0
^C^F
Heat Reclaim Deadband Heat reclaim deadband
15 min_sct 24.22 to 50.5475.0 to 122.0
40.46104.0
°C°F
Desuperheat Min SCT Desuperheater minimum saturated condensing temperature
* Depends on the selected language (English by default).
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7 - SETTING UP CONNECT TOUCH – DISPLAY MENU STRUCTURE7.2 Configuration menu (CONFIG)
Icon Displayed text* Description Name
General Configuration General configuration GENCONF
Pump Configuration Pump configuration PUMPCONF
User Configuration User configuration USERCONF
Reset Configuration Reset configuration RESETCFG
Backup Configuration Backup configuration BACKUP
Energy Managemnt Config Energy management configuration EMM_CONF
Schedule Menu Schedule menu SCHEDULE
Holiday Menu Holiday menu HOLIDAY
Broadcast Menu Broadcast menu BROCASTS
Date/Time Configuration Date/time configuration DATETIME
Network Parameters Network parameters(see section 7.3) NETWORKS
Control Identification Control identification CTRL_ID
* Depends on the selected language (English by default).
** The Trendings menu is displayed in form of a graph; hence, it is not included in this section of the document (see section 5.11).
CAUTION
Since specific units may not include additional features, some tables may contain parameters that are not relevant and cannot be configured for a given unit.
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7 - SETTING UP CONNECT TOUCH – DISPLAY MENU STRUCTURE
General Configuration Menu – GENCONF
Name Status Default Unit Displayed text* Description1 prio_cir 0 to 2 0 - Cir Priority Sequence Circuit priority2 0=Auto, 1=A Prio 0 = Automatic circuit selection
1 = Circuit A priority3 2=B Prio 2 = Circuit B priority4 seq_typ no/yes no - Staged Loading Sequence Staged loading sequence5 ramp_sel no/yes no - Ramp Loading Select Ramp loading selection6 lim_sel 0 to 2 0 - Demand Limit Type Select Demand limit selection7 0 = None 0 = None8 1 = Switch Control 1 = Switch control9 2 = 4-20mA Control 2 = 4-20 mA control10 off_on_d 1 to 15 1 min Unit Off to On Delay Unit Off to On delay11 heat_th -11.96 to 0.14
10.4 to 32.0-11.9610.4
°C°F
Heating OAT Threshold Heating OAT threshold
12 nh_start - - - Night Mode Start Hour Night mode start hour13 nh_end - - - Night Mode End Hour Night mode end hour14 nh_limit 0 to 100 100 % Night Capacity Limit Night capacity limit15 ice_cnfg no/yes no - Ice Mode Enable Ice mode enabled
(Energy Management Module)16 both_sel no/yes no - Both Command Sel (HSM) Both command selection (HSM)17 auto_sel no/yes no - Auto Changeover Select Automatic changeover selection
* Depends on the selected language (English by default).
Pump Configuration Menu – PUMPCONF
Name Status Default Unit Displayed text* Description1 pump_seq 0 to 4 0 - Pumps Sequence Pumps sequence2 0 = No Pump 0 = No pump3 1 = One Pump Only 1 = One pump only (units with one pump)4 2 = Two Pumps Auto 2 = Two pumps automatic control5 3 = Pump#1 Manual 3 = Pump 1 selected (units with two pumps)6 4 = Pump#2 Manual 4 = Pump 2 selected (units with two pumps)7 pump_del 24 to 3000 48 hour Pump Auto Rotation Delay Pump automatic rotation delay8 pump_per no/yes no - Pump Sticking Protection Pump sticking protection9 pump_sby no/yes no - Stop Pump During Standby Pump stops when the unit is in standby10 pump_loc no/yes yes - Flow Checked If Pump Off Flow checked if pump is off
* Depends on the selected language (English by default).
User Configuration Menu – USERCONF
Name Status Default Unit Displayed text* Description1 use_pass 1 to 9999 11 - User Password User password: The user password can be modified by changing the
value in this line2 language 0 to 7 0 - Language Selection Language selection3 English=0, Espanol=1 0 = English, 1 = Spanish4 Francais=2, Deutsch=3 2 = French, 3 = German5 Nederlands=4, Chinese=5 4 = Dutch, 5 = Chinese6 Italiano=6, Portuguese=7 6 = Italian, 7 = Portuguese
* Depends on the selected language (English by default).
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Reset Configuration Menu – RESETCFG
Name Status Default Unit Displayed text* Description1 cr_sel 0 to 4 0 - Cooling Reset Select Cooling reset selection2 hr_sel 0 to 4 0 - Heating Reset Select Heating reset selection3 0=None, 1=OAT, 2=Delta T 0 = None, 1 = OAT, 2 = Delta T4 3=4-20mA control 3 = 4-20 mA control5 4=Space Temp 4 = Space temperature67 Cooling Cooling
8 oat_crno -9.94 to 52.2214.0 to 125.0
-9.9414.0
°C°F OAT No Reset Value OAT, no reset value
9 oat_crfu -9.94 to 52.2214.0 to 125.0
-9.9414.0
°C°F OAT Full Reset Value OAT, max. reset value
10 dt_cr_no 0 to 14.00 to 25.0
00
^C^F Delta T No Reset Value Delta T, no reset value
11 dt_cr_fu 0 to 14.00 to 25.0
00
^C^F Delta T Full Reset Value Delta T, max. reset value
12 I_cr_no 0 to 20 0 mA Current No Reset Value Current, no reset value13 I_cr_fu 0 to 20 0 mA Current Full Reset Value Current, max. reset value
14 spacr_no -9.94 to 52.2214.0 to 125.0
-9.9414
°C°F Space T No Reset Value Space temperature, no reset value
15 spacr_fu -9.94 to 52.2214.0 to 125.0
-9.9414
°C°F Space T Full Reset Value Space temperature, max. reset value
16 cr_deg -16.80 to 16.80-30.0 to 30.0
00
^C^F Cooling Reset Deg. Value Maximum cooling reset value
1718 Heating Heating
19 oat_hrno -9.94 to 52.2214.0 to 125.0
-9.9414.0
°C°F OAT No Reset Value OAT, no reset value
20 oat_hrfu -9.94 to 52.2214.0 to 125.0
-9.9414.0
°C°F OAT Full Reset Value OAT, max. reset value
21 dt_hr_no 0 to 14.00 to 25.0
00
^C^F Delta T No Reset Value Delta T, no reset value
22 dt_hr_fu 0 to 14.00 to 25.0
00
^C^F Delta T Full Reset Value Delta T, max. reset value
23 I_hr_no 0 to 20 0 mA Current No Reset Value Current, no reset value24 I_hr_fu 0 to 20 0 mA Current Full Reset Value Current, max. reset value
25 spahr_no -9.94 to 52.2214.0 to 125.0
-9.9414.0
°C°F Space T No Reset Value Space temperature, no reset value
26 spahr_fu -9.94 to 52.2214.0 to 125.0
-9.9414.0
°C°F Space T Full Reset Value Space temperature, max. reset value
27 hr_deg -16.80 to 16.80-30.0 to 30.0
00
^C^F Heating Reset Deg. Value Maximum heating reset value
* Depends on the selected language (English by default).
Backup Configuration Menu – BACKUP
Name Status Default Unit Displayed text* Description
1 boil_th -14.98 to 15.265.0 to 59.0
-9.9414.0
°C°F Boiler OAT Threshold Boiler OAT threshold
2 ehs_th -4.90 to 21.4223.0 to 70.0
5.1841.0
°C°F Elec Stage OAT Threshold Electric heater stage OAT threshold
3 ehs_pull 0 to 60 0 min Electrical Pulldown Time Electrical pulldown time4 ehs_back no/yes no - Last EHS for backup Last electric heater stage for backup5 ehs_defr no/yes no - Quick EHS for defrost Quick EHS for defrost6 ehs_kp -20 to 20 2 - EHS Proportional Gain EHS proportional gain7 ehs_ki -5 to 5 0.2 - EHS Integral Gain EHS integral gain8 ehs_kd -20 to 20 0.4 - EHS Derivative Gain EHS derivative gain
* Depends on the selected language (English by default).
7 - SETTING UP CONNECT TOUCH – DISPLAY MENU STRUCTURE
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Energy Managemnt Config Menu – EMM_CONF
Name Status Default Unit Displayed text* Description
1 pulsewgt 0.001 to 1 0.001 kWh Energy Pulse Weight Energy pulse weight
* Depends on the selected language (English by default).
Schedule Menu – SCHEDULE
Name Displayed text* Description
1 OCCPC01S OCCPC01S - Schedule Menu Unit on/off time schedule
2 OCCPC02S OCCPC02S - Schedule Menu Unit setpoint selection time schedule
* Depends on the selected language (English by default).
Holiday Menu – HOLIDAY
Point name Status Unit Displayed text* Description1 HOL_MON 0-12 0 Holiday Start Month Holiday start month2 HOL_DAY 0-31 0 Start Day Holiday start day3 HOL_LEN 0-99 0 Duration (days) Holiday duration (days)
* Depends on the selected language (English by default).
Broadcast Menu – BROCASTS
Point name Status Unit Displayed text* Description1 broadcst 0 to 2 2 Activate Not applicableOAT Broadcast2 oatbusnm 0 to 239 0 Bus Bus number of the unit with the outdoor temperature sensor3 oatlocad 0 to 239 0 Element Element number of the unit with outdoor temperature4 dayl_sel disable/enable disable Daylight Savings Select Summer/winter time activation (Daylight saving selection)Daylight Savings Select – Summer time (entering)5 Startmon 1 to 12 3 Month Month6 Startdow 1 to 7 7 Day of Week (1=Monday) Day of the week (1 = Monday)7 Startwom 1 to 5 5 Week Number of Month Week of the monthDaylight Savings Select – Winter time (leaving)8 Stopmon 1 to 12 10 Month Month9 Stopdow 1 to 7 7 Day of Week (1=Monday) Day of the week (1 = Monday)10 Stopwom 1 to 5 5 Week Number of Month Week of the month
* Depends on the selected language (English by default).
Date/Time Configuration Menu – DATETIME
Point name Status Unit Displayed text* DescriptionDate (DD/MM/YY)1 d_of_m 1 to 31 - Day of month Day of the month2 month 1 to 12 - Month of year Month3 year 0 to 99 - Year Year4 dow Monday-Sunday - Day of Week Day of the weekTime (HH:MM)5 hour 0 to 24 hour Hour Hour6 minute 0 to 59 min Minute MinutesDaylight Saving Time7 dlig_on no/yes - Daylight Savings Time On Daylight saving time activation8 tod_hol no/yes - Today is a holiday The present day is a holiday9 tom_hol no/yes - Tomorrow is a holiday The following day is a holiday
* Depends on the selected language (English by default).
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Control Identification Menu – CTRL_ID
Status Default Displayed text* Description
1 "xx chars"
AQP LD ST AQP LD HE AQP ILD ST AQP ILD HE
Device Description Device description
2 "xx chars" Location Description Location description: The number corresponds to the country3 "xx chars" ECG-SR-20M4Bxxx Software Part Number Software version4 "xx chars" MAC address Serial Number Serial number (MAC address)
* Depends on the selected language (English by default).
7 - SETTING UP CONNECT TOUCH – DISPLAY MENU STRUCTURE
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7 - SETTING UP CONNECT TOUCH – DISPLAY MENU STRUCTURE7.3 Network Parameters menu
Icon Displayed text* Description Name
IP Address Config IP address configuration IP_UNIT
Email Configuration Email configuration EMAILCFG
Modbus RTU Config. Modbus RTU configuration MODBUSRS
Modbus TCP/IP Config. Modbus TCP/IP configuration MODBUSIP
* Depends on the selected language (English by default).
IP Address Config Menu – IP_UNIT
Name Status Default Unit Displayed text* Description1 IP address IP address2 ipadd1 0 to 255 169 - IP add, 1st byte IP address, 1st byte3 ipadd2 0 to 255 254 - IP add, 2nd byte IP address, 2nd byte4 ipadd3 0 to 255 0 - IP add, 3rd byte IP address, 3rd byte5 ipadd4 0 to 255 1 - IP add, 4th byte IP address, 4th byte6 Sub network mask Sub network mask7 subnet1 0 to 255 255 - Subnet mask 1st byte Subnet mask, 1st byte8 subnet2 0 to 255 255 - Subnet mask 2nd byte Subnet mask, 2nd byte9 subnet3 0 to 255 0 - Subnet mask 3rd byte Subnet mask, 3rd byte10 subnet4 0 to 255 0 - Subnet mask 4th byte Subnet mask, 4th byte11 Gateway address Gateway address12 gateway1 0 to 255 0 - Default gateway 1st byte Default gateway, 1st byte13 gateway2 0 to 255 0 - Default gateway 2nd byte Default gateway, 2nd byte14 gateway3 0 to 255 0 - Default gateway 3rd byte Default gateway, 3rd byte15 gateway4 0 to 255 0 - Default gateway 4th byte Default gateway, 4th byte
* Depends on the selected language (English by default).
Email Configuration Menu – EMAILCFG
Name Status Default Unit Displayed text* Description1 senderP1 "xx chars" Sender Email Part1 Sender e-mail, identifier part2 @ @3 senderP2 "xx chars" Sender Email Part2 Sender e-mail, domain part4 recip1P1 "xx chars" Recip1 Email Part1 Recipient 1, identifier part5 @ @6 recip1P2 "xx chars" Recip1 Email Part2 Recipient 1, domain part7 recip2P1 "xx chars" Recip2 Email Part1 Recipient 2, identifier part8 @ @9 recip2P2 "xx chars" Recip2 Email Part2 Recipient 2, domain part10 smtpP1 0 to 255 0 - SMTP IP Addr Part 1 SMTP IP address part 111 smtpP2 0 to 255 0 - SMTP IP Addr Part 2 SMTP IP address part 212 smtpP3 0 to 255 0 - SMTP IP Addr Part 3 SMTP IP address part 313 smtpP4 0 to 255 0 - SMTP IP Addr Part 4 SMTP IP address part 414 accP1 - - - Account Email Part1 Account e-mail, identifier part15 @ @16 accP2 - - - Account Email Part2 Account e-mail, domain part17 accPass - - - Account Password Account password18 portNbr 0 to 255 25 - Port Number Port number19 srvTim 0 to 255 30 sec Server Timeout Server timeout20 srvAut 0 to 1 0 - Server Authentication Server authentication
* Depends on the selected language (English by default).
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Modbus RTU Config. Menu – MODBUSRS
Name Status Default Unit Displayed text* Description1 modrt_en no/yes no - RTU Server Enable Enabling RTU Server2 ser_UID 1 to 247 1 - Server UID Server unique identifier3 metric no/yes yes - Metric Unit Metric unit4 swap_b 0 to 1 0 - Swap Bytes Swap bytes5 0 = Big Endian 0 = Big Endian6 1 = Little Endian 1 = Little Endian7 baudrate 9600 to 38400 9600 - Baudrate Baud rate8 parity 0 to 4 0 - Parity Parity9 0 = No Parity 0 = No Parity10 1 = Odd Parity 1 = Odd Parity11 2 = Even Parity 2 = Even Parity12 3 = Force Parity Low 3 = Force Parity Low13 4 = Force Parity High 4 = Force Parity High14 stop_bit 0 to 1 0 - Stop bit Stop bit15 0 = One Stop Bit 0 = One Stop Bit16 1 = Two Stop Bits 1 = Two Stop Bits
* Depends on the selected language (English by default).
Modbus TCP/IP Config. Menu – MODBUSIP
Name Status Default Unit Displayed text* Description1 modip_en no/yes no - TCP/IP Server Enable Enabling TCP/IP server 2 ser_UID 1 to 247 1 - Server UID Server unique identifier3 port_nbr 0 to 65535 502 - Port Number Port number4 metric no/yes yes - Metric Unit Metric unit5 swap_b 0 to 1 0 - Swap Bytes Swap bytes6 0 = Big Endian 0 = Big Endian7 1 = Little Endian 1 = Little Endian
* Depends on the selected language (English by default).
7.4 Alarms menu
Icon Displayed text* Description Name
Reset Alarms Alarm reset ALARMRST
Current Alarms Current alarms CUR_ALM
Alarm History Alarms history ALMHIST1
Major Alarm History Major alarms history ALMHIST2
* Depends on the selected language (English by default).
7 - SETTING UP CONNECT TOUCH – DISPLAY MENU STRUCTURE
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8 - STANDARD CONTROL OPERATIONS AND OPTIONS8.1 Unit Start / Stop control
The unit state is determined based on a number of factors, including its operating type, active overrides, open contacts, master/slave configuration, or alarms triggered due to operating conditions.
The table given below summarises the unit control type [ctrl_typ] and its running status with regard to the following parameters: � Operating type: This operating type is selected using the Start/Stop button on the user interface. � Start/stop force command [CHIL_S_S]: Chiller start/stop force command can be used to control the chiller state in the
Network mode. - Command set to stop: The unit is halted. - Command set to start: The unit runs in accordance with schedule 1.
� Remote start/stop contact status [Onoff_sw]: Start/Stop contact status can be used to control the chiller state in the Remote operating type.
� Master control type [ms_ctrl]: When the unit is the master unit in a two-chiller master/slave arrangement, the master unit may be set to be controlled locally, remotely or via network.
� Start/stop schedule [chil_occ]: Occupied or unoccupied status of the unit. � Network emergency stop command [EMSTOP]: If activated, the unit shuts down regardless of the active operating type. � General alarm: The unit shuts down due to failure.
Active operating type Parameters status Result
LOFF L-On L-SC Rem Net MastStart/
Stop force command
Remote start/stop contact
Master control
type
Start/stop time schedule
Network emergency shutdown
General alarm
Control type Unit state
- - - - - - - - - - enabled - - off- - - - - - - - - - - yes - off
active - - - - - - - - - - - local off- - active - - - - - - unoccupied - - local off- - - active - - - open - - - - remote off- - - active - - - - - unoccupied - - remote off- - - - active - disabled - - - - - network off- - - - active - - - - unoccupied - - network off- - - - - active - - local unoccupied - - local off- - - - - active - open remote - - - remote off- - - - - active - - remote unoccupied - - remote off- - - - - active disabled - network - - - network off- - - - - active - - network unoccupied - - network off- active - - - - - - - - disabled no local on- - active - - - - - - occupied disabled no local on- - - active - - - closed - occupied disabled no remote on- - - - active - enabled - - occupied disabled no network on- - - - - active - - local occupied disabled no local on- - - - - active - closed remote occupied disabled no remote on- - - - - active enabled - network occupied disabled no network on
IMPORTANT: When the unit is stopping or there is a demand to stop the unit, compressors are stopped consecutively.In case of emergency stop, all compressors are stopped at the same time.
8.2 Heating / Cooling control
AQUACIATPOWER heat pumps and chillers fitted with a boiler may operate in cooling or heating mode. The CONNECT TOUCH control determines whether the unit is in the heating or cooling operating mode. � Without a boiler, the chiller remains in Cooling mode
(Heating is NOT possible). � Heat pumps may operate in Cooling or Heating mode,
depending on current configuration.
When the chiller is in Heating mode, the control utilises the boiler to satisfy the heating demand. For heat pumps, the boiler is used when mechanical heating is impossible or insufficient. Additionally, when the outside air temperature is very low, electric heaters can be used as a form of supplemental heating (heat pumps only).
When Cooling mode is selected, the unit will operate in the Cooling mode and, as a result, the boiler or electric heating will not be activated.
The unit may also "operate" in Standby mode which means that it is neither cooling nor heating. If the unit is in Standby mode, it does not cool or heat and compressors are stopped. The pump is running with no mechanical cooling or heating unless configured otherwise. The pump may be stopped depending on pumps configuration (PUMPCONF – Pump Configuration).
HEATING STANDBY COOLING OAT
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8 - STANDARD CONTROL OPERATIONS AND OPTIONS8.2.1 Operating mode - control
The operating mode, i.e. cooling or heating, is determined based on the following parameters: � Unit on/off status [status]: Unit running status. � Control type [ctrl_typ]: Local, Remote or Network. � Local heat/cool selection [hc_sel]: Heat/Cool selection when the unit is running in Local mode. � Remote heat/cool selection [onsw_cr]: Heat/Cool selection when the unit is running in Remote mode. � Network heat/cool selection [HC_SEL]: Heat/Cool selection when the unit is running in Network mode. � Outdoor air temperature [OAT]: Heat/Cool setpoint selection when the automatic changeover has been enabled.
On/Off status Control type
Heating/Cooling selectionin local mode
Heating/Cooling contactin local mode
Heat/Cool select
Operating mode
off - - - - cooling
on local cooling - - cooling
on local heating - - heating
on remote - on cooling - cooling
on remote - on heating - heating
on network - - cooling cooling
on network - - heating heating
8.2.2 Heating / Cooling selection
Heating/Cooling selection applies to chillers with a boiler and heat pumps. Heating/Cooling selection can be controlled in various ways, depending on the active operating type. By default, the cooling mode is selected.
Heating/Cooling selection can be determined: � Locally at the unit using the HC_SEL item in the GENUNIT
menu. � Remotely via the heating/cooling selection contact, if the
unit is in the Remote mode. � Via a network command if the unit is in the Network mode.
Heating/Cooling mode can be set manually by the user or automatically by the control. When heating/cooling is automatic, the outdoor air temperature (OAT) determines the heat/cool/standby changeover (see the SETPOINT menu for cooling and heating mode changeover thresholds). The automatic changeover is optional and requires user configuration (GENUNIT – General Parameters).
8.3 Supplementary heating
AQUACIATPOWER LD chillers may be fitted with a boiler that allows the unit to run in heating mode if required. The boiler is active only when the unit is in Heating mode.
AQUACIATPOWER ILD heat pumps may be fitted with a boiler or electric heaters which are used as heating replacement when mechanical heating is not possible due to low outdoor air temperature. Electric heating can be turned on to satisfy the heating demand when mechanical heating is insufficient.
8.3.1 Boiler control
Boiler is activated when the outside air temperature is below the user-configured boiler outdoor temperature threshold which is by default set to -10°C (Boiler OAT Threshold in the BACKUP menu).
8.3.2 Electric heating control
Electric heating stages can be activated as additional heating when OAT is below the user-configured electric heating OAT threshold which is by default set to 5°C (Elec Stage OAT Threshold in the BACKUP menu).
Electric heating is allowed when: � Unit is running at 100% capacity. � Electric pull-down time elapsed. � OAT is below the OAT threshold.
IMPORTANT: Please note that electric heating is not allowed when the demand limit is active on the unit.
8.4 Water pumps control
The CONNECT TOUCH control can manage one or two water exchanger pumps, determining the state of each pump as well as its speed. The pump can be turned on when configured and when the unit is running (Pumps Sequence in the PUMPCONF menu).
The pump is turned off when the unit is shut down due to an alarm, unless the fault is a frost protection error. The pump can be started in particular operating conditions when the water exchanger heater is active.
If the pump has failed and another pump is available, the unit is stopped and started again with the second pump. If there is no pump available, the unit shuts down.
Please remember that the configuration of pump(s) may differ depending on the number and type of pumps that are available for the specific unit (1 or 2 pumps / single-speed or variable-speed pumps).
8.4.1 Variable speed pumps control
AQUACIATPOWER LD -ST/-HE chillers as well as ILD -ST/-HE heat pumps may be fitted with one or two variable speed pumps.
Variable speed pumps give the possibility of saving the pumping energy cost, providing precise water flow control and improving the overall performance of the system. The frequency inverter continuously regulates the flow rate to minimise the pump power consumption at full load and part load.
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8 - STANDARD CONTROL OPERATIONS AND OPTIONSWater flow management methods are as follows:
1) Fixed speed control (the control ensures a constant pump speed based on compressor capacity).
2) Water flow control based on constant water delta pressure (the control continuously acts on the pump speed to ensure a constant delta pressure).
3) Water flow control based on constant delta T on the water exchanger.
Fixed speed pumps can be either low or high pressure, whereas variable speed pumps are always high pressure pumps.
8.4.2 Configuring pumps
The CONNECT TOUCH can control fixed speed and variable speed pumps as well as customer pumps. Note that variable speed pumps can be configured as fixed speed pumps.
Basic pump configuration can be performed via the Configuration menu (PUMPCONF – Pump Configuration). Remember that only logged-in users may access the menu. The unit must be stopped.
IMPORTANT: Please note that the speed of the pump can be configured only by service technicians.
To set pumps sequence1. Navigate to the Configuration menu (logged-in users only).2. Select Pump Configuration (PUMPCONF).3. Set Pumps Sequence [pump_seq].
Pumps Sequence [pump_seq]0 No pump1 One pump only2 Two pumps auto3 Pump#1 Manual4 Pump#2 Manual
8.4.3 Setting pumps automatically
If there are two pumps in the system controlled by the CONNECT TOUCH, then the "pump reversing" functionality can be used. When the pump reversing option is selected, then the control balances the pump run time to match the configured pump changeover delay. In case the delay has elapsed, the pump reversing function is activated.
To set pumps automatic rotation delay1. Navigate to the Configuration menu (logged-in users only).2. Select Pump Configuration (PUMPCONF).3. Set Pump Auto Rotation Delay [pump_del].
Pump Auto Rotation Delay [pump_del]
24 to 3000h 48h
8.4.4 Setting customer pumps
Units with customer pumps are fitted with the flow switch, allowing for the water flow control.
Customer pumps have the following configurations possible:
Pump(s) available [pump_seq] DescriptionNo pump 0 No pumpOne single speed pump 1 One pump onlyTwo single speed pumps 2 Two pumps automatic
3 Pump #1 manual4 Pump #2 manual
8.4.5 Setting pump protections
To mitigate the risk of freezing the water exchanger when the outside air temperature is low, the CONNECT TOUCH control provides a means to automatically start the pump each day at 14:00 for 2 seconds when the unit is "Off" (especially useful when the unit is stopped for a long time, e.g. during the winter season).
For units fitted with two pumps, the first pump is started on even days and the second pump is started on odd days. Starting the pump periodically for a few seconds extends the lifetime of the pump bearings and the tightness of the pump seal. This periodical pump quick start can be selected via the Configuration menu.
To set periodical pump quick start1. Navigate to the Configuration menu (logged-in users only).2. Select Pump Configuration (PUMPCONF).3. Set Pump Sticking Protection [pump_per].
Pump Sticking Protection [pump_per]
No/Yes Yes
8.4.6 Setting ECO pump mode
When the unit is in Standby mode (heating or cooling demand is satisfied), the CONNECT TOUCH control may be configured to stop the pump periodically in order to save energy.
This option can be configured only by service technicians.
To verify the Eco Pump configuration1. Navigate to the Main menu.2. Select Miscellaneous Status (MSC_STAT).3. Verify Eco Pump Mode Active [m_ecopmp].
Eco Pump Mode Active [m_ecopmp]
No/Yes
8.5 Hydronic kit option
The hydronic kit option allows for continuous monitoring of the water flow rate.
The hydronic kit provides the option to measure the following parameters: � Inlet and Outlet water pressure. � Water exchanger flow rate.
How is the water flow rate measured?
The water flow rate measurement is based on the calculation that takes into account the pressure difference between the Inlet water pressure and the Outlet water pressure as well as the pressure drop curves.
Hydronic kit option + variable speed pumps
In the case of units fitted with variable speed pumps, the CONNECT TOUCH control adjusts the pump speed automatically in order to make sure that the water flow rate is maintained at the correct level.
Depending on the selected configuration, the water flow control can be based on compressor usage, constant delta pressure or constant temperature difference.
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8 - STANDARD CONTROL OPERATIONS AND OPTIONS8.6 Control point
The control point represents the water temperature that the unit must produce. The required capacity can be decreased depending on the unit load operating conditions.
Control point = Active setpoint + Reset
The control point is based on the active setpoint and the reset calculation. The forced value can be used instead of any other setpoint calculation only when the unit is in the Network operating type.
8.6.1 Active setpoint
Two heating setpoints and three cooling setpoints can be selected. The third cooling setpoint is used for ice storage during unoccupied periods.
Depending on the current operation type, the active setpoint can be selected using one of the following methods: ● Manually
� Via the Main menu (GENUNIT - General Parameters) � With the volt-free user contacts � Network commands
● Automatically � Setpoint Time Schedule is used (schedule 2)
The following tables provide the overview of possible setpoint selections, where the selected setpoint depends on the following parameters: � Control operating type: Local, Remote, Network � Mode: Cooling or Heating � Setpoint select parameter: The Setpoint Select parameter in the General Parameters menu allows the user to select the
active setpoint when operating in the Local control operating type [hc_sel in GENUNIT menu] � Ice configuration: Ice production mode configuration [ice_cnfg in GENCONF menu] � Ice done contact status: Available on EMM SIOB board � Setpoint switch status: Remote Setpoint switch parameter in the Inputs menu � Schedule 2 status: Schedule configuration
LOCAL OPERATING TYPE
Mode Setpoint selection Ice configuration Ice done contact Setpoint switch Schedule 2 status Active setpointcooling sp-1 - * * - Cooling setpoint 1cooling sp-2 - * * - Cooling setpoint 2cooling (*) enable open closed - Ice setpointcooling (*) enable closed closed - Cooling setpoint 2cooling auto - * * occupied Cooling setpoint 1cooling auto - * * unoccupied Cooling setpoint 2cooling auto enable open * unoccupied Ice setpointcooling auto enable closed * unoccupied Cooling setpoint 2heating sp-1 - * * - Heating setpoint 1heating sp-2 - * * - Heating setpoint 2heating auto - * * occupied Heating setpoint 1heating auto - * * unoccupied Heating setpoint 2
REMOTE OPERATING TYPE
Mode Setpoint selection Ice configuration Ice done contact Setpoint switch Schedule 2 status Active setpoint
cooling - - * open - Cooling setpoint 1cooling - - * closed - Cooling setpoint 2cooling - enable open closed - Ice setpointcooling - enable closed closed - Cooling setpoint 2heating - - * open - Heating setpoint 1heating - - * closed - Heating setpoint 2
NETWORK OPERATING TYPE
Mode Setpoint selection Ice configuration Ice done contact Setpoint switch Schedule 2 status Active setpoint
cooling - - * * occupied Cooling setpoint 1cooling - - * * unoccupied Cooling setpoint 2heating - - * * occupied Heating setpoint 1heating - - * * unoccupied Heating setpoint 2
* any configuration- default configuration
AQUACIATPOWER En - 38
8 - STANDARD CONTROL OPERATIONS AND OPTIONS8.6.2 Reset calculation
Reset means that the active setpoint is modified so that less machine capacity is required in order to satisfy the current demand.
In the cooling mode the setpoint is increased, whereas in the heating mode it is usually decreased.
The reset can be based on the following factors (sources): � OAT that gives the measure of the load trends for the
building. � Return water temperature (ΔT provides the average
building load). � Space temperature (Energy Management Module). � Dedicated 4-20 mA input (Energy Management Module).
The reset source as well as reset parameters can be configured via the CONNECT TOUCH user interface (RESETCFG – Reset Configuration).
In response to a drop in the reset source, e.g. OAT, the cooling setpoint is normally reset upwards to optimise the unit performance.
The reset value is determined by linear interpolation based on the following parameters: � A reference at which the reset is zero = no reset value � A reference at which the reset is maximum = full reset value � The maximum reset value
Reset example in Cooling mode:
B
C
A°C
°C
100%
3
0 20 25
D
% B
uild
ing
Load
Res
et v
alue
20 Reset based on OAT 250 Reset based on delta T 34 Reset based on analog input 20
no_reset Selection full_reset
Legend:A: Maximum reset valueB: Reference for zero resetC: Reference for maximum resetD: Building load
8.7 Capacity limitation
The CONNECT TOUCH control allows for the constant control of the unit capacity. It is possible thanks to setting the unit's maximum allowable capacity.
How to understand "capacity limitation"?
Capacity limitation is used to determine the maximum unit's capacity. Capacity limitation is expressed in percentage, where a limit value of 100% means that the unit may run with its full capacity (no limitation is required).
The unit capacity can be limited as follows: � By means of user-controlled volt-free contacts. The unit
capacity can never exceed the setpoint limit activated by these contacts.
� By lag limit [LAG_LIM] set by the Master unit in the master/slave assembly. If the unit is not in the master/slave assembly, then the lag limit value is equal to 100%.
� By night mode limitation control. The demand limit value in the night mode is selectable if the value is below the selected capacity limit.
To set limit setpoints1. Navigate to the Main menu.2. Select Setpoint Configuration (SETPOINT).3. Set Switch Limit Setpoint 1 / 2 / 3 [lim_sp1 / 2 / 3].
Switch Limit Setpoint 1 / 2 / 3 [lim_sp1 / 2 / 3]
0 to 100% 100%
To verify lag limit set by the master unit1. Navigate to the Main menu.2. Select General Parameters (GENUNIT).3. Verify Lag Capacity Limit Value [LAG_LIM].
Lag Capacity Limit Value [LAG_LIM]
0 to 100% 100%
To set the night mode limit1. Navigate to the Configuration menu (logged-in users only).2. Select General Configuration (GENCONF).3. Set Night Capacity Limit [nh_limit].
Night Capacity Limit [nh_limit]
0 to 100% 100%
Active demand limit
Based on the limit source, the active demand limit value [DEM_LIM] is set to the lowest possible value. The DEM_LIM parameter can be forced by Network.
To verify active demand limit value1. Navigate to the Main menu.2. Select General Parameters (GENUNIT).3. Verify Active Demand Limit Val [DEM_LIM].
Active Demand Limit Val [DEM_LIM]
0 to 100% -
En - 39 AQUACIATPOWER
8 - STANDARD CONTROL OPERATIONS AND OPTIONS8.8 Controlling capacity
The control adjusts the capacity to keep the water exchanger temperature at its setpoint. Compressors are started and stopped in a sequence designed to equalize the number of starts (value weighted by their operating type).
8.8.1 Circuit loading sequence
The function determines in which order the circuit capacity is changed. Compressor loading is managed by starting/stopping compressors. Two types of sequencing, i.e. balanced and staged loading sequence, are available and can be configured by the user via the user interface.
Balanced loading sequence: The control maintains equal capacity between all circuits as the machine loads and unloads. Balanced loading sequence is the default sequence employed by the control.
Staged loading sequence: The control loads the lead circuit completely before the lag circuit is started. When the load is decreasing, the lag circuit is unloaded first. Staged loading sequence is active when one of the circuits is shut down due to its failure; the circuit is in capacity override mode; or the remaining circuits are shut down or fully charged.
To set the circuit loading sequence1. Navigate to the Configuration menu (logged-in users only).2. Select General Configuration (GENCONF).3. Set Staged Loading Sequence [seq_typ].
Staged Loading Sequence [seq_typ]
No/Yes No (staged loading NOT active)
8.8.2 Capacity for multi-circuit units
For units with more than one circuit, the lead/lag function determines which circuit is the lead circuit and which circuit is the lag circuit. This function controls the start/stop sequence of two refrigeration circuits called circuit A and circuit B.
The circuit authorised to start first is the lead circuit. Lead circuit is used first for capacity increases and at the same time should be decreased first when decreasing capacity. The lead/lag circuits can be selected manually or automatically.
� Manual lead/lag circuit determination: Circuit A or circuit B selected as the lead circuit. The selected circuit takes priority over another circuit.
� Automatic lead/lag circuit determination: The control system determines the lead circuit to equalise the operating time of each circuit (value weighted by the number of start-ups of each circuit). As a result, the circuit with the lowest number of operating hours always starts first.
To set circuit priority (manual or automatic selection)1. Navigate to the Configuration menu (logged-in users only).2. Select General Configuration (GENCONF).3. Set Cir Priority Sequence [prio_cir].
Cir Priority Sequence [prio_cir]
0 Auto
1 Circuit A lead
2 Circuit B lead
8.9 Night mode
Night mode allows users to configure the unit to operate with specific parameters in a specific time period, e.g. at night.
If the night mode is set, then during the night period: � The unit capacity is limited. � In order to reduce the noise level, the number of fans
allowed to operate is restricted (cooling mode only).
The night period is defined by a start time and an end time that are the same for each day of the week. The night mode settings as well as the maximum capacity value can be set by logged-in users only.
To set circuit priority1. Navigate to the Configuration menu (logged-in users only).2. Select General Configuration (GENCONF).3. Set parameters corresponding to the night mode.
Night Mode Start Hour [nh_start]00:00 to 24:00
Night Mode End Hour [nh_end]00:00 to 24:00
Night Capacity Limit [nh_limit]0 to 100% 100%
8.10 Controlling the coil pressure
The coil pressure of each circuit is managed by four fans maximum. AQUACIATPOWER LD-ST and ILD-ST units come with fixed speed fans only, whereas AQUACIATPOWER LD-HE series and ILD-HE series units may be fitted with variable speed fans that provide higher part load efficiency and reduced noise level.
In cooling mode, the condensing pressure is controlled independently in each circuit based on the saturated condensing temperature. The control permanently adjusts its setpoint to guarantee optimal performance and ensure anti-short-cycle protection of the fans.
In heating mode, the evaporating pressure is controlled independently on each circuit based on the saturated suction temperature. The control permanently adjusts its setpoint to guarantee optimal performance, delay and limit frost accumulation on coils.
8.11 Setting holidays
The control allows the user to define 16 holiday periods. Each holiday period is defined by three parameters, i.e. the month, the start day, and the duration of the holiday period.
During the holiday period, depending on periods defined as holidays, the controller will be either in occupied or unoccupied mode. Holiday periods can be modified by logged-in users only.
To modify holiday periods1. Navigate to the Configuration menu (logged-in users only).2. Select Holiday Menu (HOLIDAY).3. Choose the holiday period, e.g. HOLDY_01.4. Set Holiday Start Month [HOL_MON], Start Day [HOL_
DAY], Duration (days) [HOL_LEN].
Holiday Start Month [HOL_MON]0-12 0
Start Day [HOL_DAY]0-31 0
Duration (days) [HOL_LEN]0-99 0
AQUACIATPOWER En - 40
8 - STANDARD CONTROL OPERATIONS AND OPTIONS8.12 Dry cooler – free cooling option
AQUACIATPOWER LD chillers and AQUACIATPOWER ILD heat pumps may be fitted with a dry cooler that enables power consumption reduction which amounts to energy and cost savings.
The installation of a dry cooler allows for "free cooling" – a method of using low outdoor air temperature as an aid to chilling water that is later used in the air-conditioning system. The system is the most effective when the outdoor air temperature is below 0°C (32°F).
8.12.1 Starting free cooling
The free cooling mode is ENABLED when the free cooling / dry cooler OAT [fdc_oat] is below the water loop temperature and the start threshold:
fdc_oat < fdcWloop – fdc_startfdc_oat: Free Cooling OATfdcWloop: Free Cooling Water Temperaturefdc_start: Free Cooling Start ValveThreshold (service access only)
NOTE: [fdcWloop] and [fdc_oat] temperatures measured by the control are read-only values that can be verified in the FC Dry Cooler Status menu (FCDC_ST).
To verify Dry Cooler water loop temp.1. Navigate to the Main menu.2. Select FC Dry Cooler Status (FCDC_ST).3. Verify FCDC Water Loop Temp [fdcWloop].
FCDC Water Loop Temp [fdcWloop]
°C / °F
To verify Free Cooling OAT1. Navigate to the Main menu.2. Select FC Dry Cooler Status (FCDC_ST).3. Verify FC Dry Cooler OAT [fdc_oat].
FC Dry Cooler OAT [fdc_oat]
°C / °F
8.12.2 Stopping free cooling
If it turns out that the cooling power of the dry cooler is not enough in order to reach the cooling setpoint, then the mechanical cooling will be started.
Free Cooling is normally stopped when the free cooling / dry cooler OAT [fdc_oat] is above the water loop temperature and the start/stop threshold:
fdc_oat > fdcWloop - fdc_start + fdc_stopfdc_oat: Free Cooling OATfdcWloop: Free Cooling Water Temperaturefdc_start: Free Cooling Start Valve Threshold (service access only)fdc_stop: Free Cooling Stop Valve Threshold (service access only)
When FC capacity is at 100%, then mechanical cooling can be started.
8.13 Energy Management Module
The CONNECT TOUCH control may be interconnected with the Energy Management Module (EMM) used to control the level of energy consumption, providing users with information such as the current unit status, compressors operating status, etc.
8.14 Heat recovery option (desuperheater)
Heat recovery is a method of using energy that would normally leave the system in the form of the waste heat released into the air.
Thanks to the concept of heat recovery, AQUACIATPOWER ILD heat pumps can produce hot water using the recycled heat. Such a solution does not only allow for decreasing the energy consumption expenses but it also proves to be environmentally friendly. By recovering heat from the cooling cycle, the CONNECT TOUCH control system can maximise the unit efficiency and provide a large amount of hot water to the building system.
AQUACIATPOWER LD chillers and AQUACIATPOWER ILD heat pumps may be fitted with a desuperheater that allows for better energy management by providing partial heat reclaim functionality.
Desuperheater (heat exchanger) is mounted between the compressor and air-cooled condenser. The desuperheater is used to extract the high pressure, high temperature heat from the refrigerant to "desuperheat" it to a lower pressure refrigerant. The heat that is obtained in this process can be used for warming the water (up to 80°C). Please note that the vapour that goes into the desuperheater is not fully condensed; therefore, the refrigerant is channelled to a separate heat exchanger ("condenser") where the condensing process occurs.
To set the minimum desuperheat temperature1. Navigate to the Main menu.2. Select Setpoint Configuration (SETPOINT).3. Set Desuperheat Min SCT [min_sct].
Desuperheat Min SCT [min_sct]
24 to 50°C 40°C
75 to 122°F 104°F
En - 41 AQUACIATPOWER
8 - STANDARD CONTROL OPERATIONS AND OPTIONS8.15 Defrost cycle (heat pumps only)
When the outside air temperature is low and the ambient humidity is high, the probability of frost forming on the surface of the outdoor coil increases. The frost covering the outdoor coil may decrease the air flow across the coil and lead to lower performance of the unit. To remove the frost from the coil, the control initiates the defrost cycle when necessary (defrost mode acts as Cooling mode).
8.15.1 Standard defrost
During the defrost cycle, the circuit is forced into the cooling mode. The heat (energy) is extracted from the water circuit by using compressors and reversing the 4-way valve. The defrost cycle lasts until the end of defrost temperature is achieved.
8.15.2 Free defrost
Free defrost is used in order to eliminate a respectively small amount of frost that has formed on the surface of the coil. Contrary to the standard defrost session, in the case of the free defrost session the heat (energy) is absorbed from the air. When running the free defrost operation, fans are activated and all compressors are turned off. The free defrost is most efficient when current heating demand is below the heating capacity delivered by the unit and the outside air temperature is above 1°C.
IMPORTANT: In the case of a large amount of frost covering the coil, the standard defrost cycle will be started.
8.16 Master/Slave control
The CONNECT TOUCH control system optimises the management of two units linked by the proprietary protocol network.
The unit configured as the Master is a control point for the master/slave assembly. The Master unit can be controlled locally, remotely or by network commands, while the Slave unit remains in Network mode.
All control commands sent to the master/slave assembly (start/stop, setpoint selection, heating/cooling, operating mode, load shedding, etc.) are handled by the unit which is configured as the master. The commands are transmitted automatically to the slave unit. For example, if the master chiller is turned off while the master/slave function is active, then the slave unit will be stopped.
In the event of a communication failure (between the two units), each unit will return to an autonomous operating mode until the detected fault is cleared. If the Master unit is stopped due to a detected alarm, then the Slave unit is authorised to start.
IMPORTANT: Master/Slave assembly can be configured only by service technicians.
8.17 BACnet IP option
The BACnet IP communication protocol can be used to communicate with other controllers available in the same BMS.
IMPORTANT: BACnet option can be installed only by service technicians.
AQUACIATPOWER En - 42
9 - DIAGNOSTICSThe CONNECT TOUCH control system has many fault tracing aid functions, protecting the unit against risks that could result in the failure of the unit.
9.1 Control diagnostics
The CONNECT TOUCH user interface enables the quick display of the unit status: � The blinking bell icon indicates that there is an alarm, but the unit is still running (degraded mode). � The highlighted bell icon indicates that the unit is shut down due to a detected fault.
The local interface – CONNECT TOUCH – gives the user quick access to monitor all unit operating conditions.
If an operating fault is detected, the alarm is triggered. All information regarding the existing alarms (current and past alarms) can be found in the Alarms menu.
Alarms menu Access
Viewing alarm information
Date Hour Code Description
Current Alarms Basic ✓ ✓ ✓
Reset Alarms User ✓
Alarm History Basic ✓ ✓ ✓
Major Alarm History Basic ✓ ✓ ✓
9.1.1 Displaying current alarms
All currently active alarms can be found in the Current Alarms menu. In addition to the description of the alarm, the control provides information such as date or time that the alarm occurred. � The Current alarms menu may display up to 10 current
alarms.
To access the list of currently active alarms1. Press the Alarm button in the upper-right part of the screen.2. Select Current Alarms.3. The list of active alarms will be displayed.
9.1.2 Resetting alarms
The alarm can be reset either automatically by the control or manually through the CONNECT TOUCH panel display or the web interface (in the Reset Alarms menu). � The Reset alarms menu displays up to 5 alarm codes which
are currently active on the unit. � Alarms can be reset without stopping the machine. � Only logged-in users can reset the alarms on the unit.
To reset the alarm manually1. Press the Alarm button in the upper-right part of the screen.2. Select Reset Alarms.3. Set "Alarm Reset" to Yes.
IMPORTANT: Not all alarms can be reset by the user. Some alarms are reset automatically when operating conditions return to normal.
CAUTION
In the event of a power supply interrupt, the unit restarts automatically without the need for an external command. However, any faults active when the supply is interrupted are saved and may in certain cases prevent a circuit or a unit from restarting.
9.1.3 Reviewing alarm history
Information regarding resolved alarms can be accessed in the Alarm history menu which is divided into 50 recent alarms and 50 recent major alarms. � General alarms are used to indicate pumps failure,
transducers faults, network connection problems, etc. � Major alarms are used to indicate process failure.
To access alarms history1. Press the Alarm button in the upper-right part of the screen.2. Select Alarm History or Major Alarm History.
9.2 E-mail notifications
The CONNECT TOUCH control system provides the option to define one or two recipients who receive e-mail notifications each time the new alarm occurs or all existing alarms have been reset. � Only logged-in users can set and modify e-mail notifications.
To define e-mail recipients1. Navigate to the Configuration menu and go to Network
Parameters.2. Select Email Configuration.3. Add recipients who would receive notifications each time
the alarm is triggered.
En - 43 AQUACIATPOWER
9 - DIAGNOSTICS9.3 Alarms description
This section includes all alarms/alerts associated with the operation of the unit as well as optional drives used to provide variable speed fans and variable speed pumps functionalities.
9.3.1 General / Major alarms
The following table includes a list of alarms that might appear on the unit.
Code Description Possible cause Action taken on the unit Reset type
INPUTS FAILURES
15001 Water Exchanger Entering Fluid Thermistor Failure Defective thermistor or connection Unit shuts down Automatic, if thermistor reading
returns to normal
15002 Water Exchanger Leaving Fluid Thermistor Failure Defective thermistor or connection Unit shuts down Automatic, if thermistor reading
returns to normal
15003 Circuit A Defrost Thermistor Failure Defective thermistor or connection Cooling / Standby mode: None
Heating mode: Circuit A shuts downAutomatic, if thermistor reading returns to normal
15004 Circuit B Defrost Thermistor Failure Defective thermistor or connection Cooling / Standby mode: None
Heating mode: Circuit B shuts downAutomatic, if thermistor reading returns to normal
15010 OAT Thermistor Failure Defective thermistor or connection Unit shuts down Automatic, if thermistor reading returns to normal
15011 Master/Slave Common Leaving Fluid Thermistor Defective thermistor or connection Master/Slave control stopped and the
unit returns to the standalone modeAutomatic, if thermistor reading returns to normal
15012 Circuit A Suction Gas Thermistor Defective thermistor or connection Circuit A shuts down Automatic, if thermistor reading
returns to normal
15013 Circuit B Suction Gas Thermistor Defective thermistor or connection Circuit B shuts down Automatic, if thermistor reading
returns to normal
15018Circuit A Condenser Subcooling Liquid Thermistor Failure
Defective thermistor or connection Unit returns to the air-cooled mode Automatic, if thermistor reading returns to normal
15019Circuit B Condenser Subcooling Liquid Thermistor Failure
Defective thermistor or connection Unit returns to the air-cooled mode Automatic, if thermistor reading returns to normal
15021 Space Temperature Thermistor Defective thermistor or connection Setpoint reset is cancelled / Unit
continues to operateAutomatic, if thermistor reading returns to normal
15046 FC Dry Cooler Water Loop Thermistor Failure Defective thermistor or connection Free cooling (dry cooler) mode is
stoppedAutomatic, if thermistor reading returns to normal
15047 FC Dry Cooler Leaving Water Thermistor Failure Defective thermistor or connection Free cooling (dry cooler) mode is
stoppedAutomatic, if thermistor reading returns to normal
15048 FC Dry Cooler OAT Thermistor Failure Defective thermistor or connection OAT thermistor reading is used
instead of Dry Cooler OAT readingAutomatic, if thermistor reading returns to normal
PRESSURE TRANSDUCER FAILURES
12001 Circuit A Discharge Transducer Defective transducer or connection Circuit A shuts down Automatic, if sensor voltage reading
returns to normal
12002 Circuit B Discharge Transducer Defective transducer or connection Circuit B shuts down Automatic, if sensor voltage reading
returns to normal
12004 Circuit A Suction Transducer Defective transducer or connection Circuit A shuts down Automatic (up to 3 alarms within 24h); otherwise, Manual
12005 Circuit B Suction Transducer Defective transducer or connection Circuit B shuts down Automatic (up to 3 alarms within 24h); otherwise, Manual
12007 Circuit A Reclaim Pumpdown Pressure Transducer Defective transducer or connection Circuit A returns to the air-cooled
modeAutomatic, if sensor voltage reading returns to normal
12008 Circuit B Reclaim Pumpdown Pressure Transducer Defective transducer or connection Circuit B returns to the air-cooled
modeAutomatic, if sensor voltage reading returns to normal
12024 Water Exchanger Entering Fluid Transducer Failure Defective transducer or connection Unit shuts down Automatic, if sensor voltage reading
returns to normal
12025 Water Exchanger Leaving Fluid Transducer Failure Defective transducer or connection Unit shuts down Automatic, if sensor voltage reading
returns to normal
COMMUNICATION FAILURES
04901 Loss of communication with Circuit A SIOB board
Bus installation fault, communication error Unit shuts down Automatic, if communication is
re-established
04902 Loss of communication with Circuit B SIOB Board
Bus installation fault, communication error Unit shuts down Automatic, if communication is
re-established
04906Loss of communication with Energy Management SIOB Board
Bus installation fault, communication error None Automatic, if communication is
re-established
04501 Loss of communication with Fan Board Number 1
Bus installation fault, communication error Unit shuts down Automatic, if communication is
re-established
04601 Loss of communication with FC Dry Cooler Board
Bus installation fault, communication error None Automatic, if communication is
re-established
AQUACIATPOWER En - 44
9 - DIAGNOSTICS
Code Description Possible cause Action taken on the unit Reset type
04701Loss of communication with VFD Fan Drive Board Circuit A
Bus installation fault, communication error Circuit A shuts down Automatic, if communication is
re-established
04702Loss of communication with VFD Fan Drive Board Circuit B
Bus installation fault, communication error Circuit B shuts down Automatic, if communication is
re-established
04703Loss of communication with VFD Pump Drive Board Number 1
Bus installation fault, communication error
Unit is stopped and restarted with the second pump (if available); If there is no pump available, the unit shuts down
Automatic, if communication is re-established
04704Loss of communication with VFD Pump Drive Board Number 2
Bus installation fault, communication error
Unit is stopped and restarted with the second pump (if available); If there is no pump available, the unit shuts down
Automatic, if communication is re-established
PROCESS FAILURES
10001 Water Exchanger Freeze Protection No water flow, defective thermistor Unit shuts down but the pump
continues to runAutomatic (the first alarm in the last 24h); otherwise, Manual
10005 Circuit A Low Saturated Suction Temperature
Pressure transducer defective, EXV blocked or lack of refrigerant Circuit A shuts down Automatic (the first alarm in the last
24h); otherwise, Manual
10006 Circuit B Low Saturated Suction Temperature
Pressure transducer defective, EXV blocked or lack of refrigerant Circuit B shuts down Automatic (the first alarm in the last
24h); otherwise, Manual
10008 Circuit A High SuperheatPressure transducer defective, temperature sensor defective, EXV blocked or lack of refrigerant
Circuit A shuts down Manual
10009 Circuit B High SuperheatPressure transducer defective, temperature sensor defective, EXV blocked or lack of refrigerant
Circuit B shuts down Manual
10011 Circuit A Low SuperheatPressure transducer defective, temperature sensor defective, EXV blocked or lack of refrigerant
Circuit A shuts down Manual
10012 Circuit B Low SuperheatPressure transducer defective, temperature sensor defective, EXV blocked or lack of refrigerant
Circuit B shuts down Manual
10014 Customer Interlock Failure Customer interlock input set "On" Unit shuts down Automatic (if the unit was stopped); otherwise, Manual
10016Compressor A1 Not Started or Pressure Increase not established
Compressor breaker or fuse fault, compressor switch open Compressor A1 shuts down Manual
10017Compressor A2 Not Started or Pressure Increase not established
Compressor breaker or fuse fault, compressor switch open Compressor A2 shuts down Manual
10018Compressor A3 Not Started or Pressure Increase not established
Compressor breaker or fuse fault, compressor switch open Compressor A3 shuts down Manual
10019Compressor A4 Not Started or Pressure Increase not established
Compressor breaker or fuse fault, compressor switch open Compressor A4 shuts down Manual
10020Compressor B1 Not Started or Pressure Increase not established
Compressor breaker or fuse fault, compressor switch open Compressor B1 shuts down Manual
10021Compressor B2 Not Started or Pressure Increase not established
Compressor breaker or fuse fault, compressor switch open Compressor B2 shuts down Manual
10022Compressor B3 Not Started or Pressure Increase not established
Compressor breaker or fuse fault, compressor switch open Compressor B3 shuts down Manual
10023Compressor B4 Not Started or Pressure Increase not established
Compressor breaker or fuse fault, compressor switch open Compressor B4 shuts down Manual
10028 Main Power Supply Fault Power supply fault, high temperature in the electrical box
Unit shuts down and it is not allowed to start Automatic, if the input is closed
10030 Master/Slave Communication Failure Bus installation fault Master/Slave control is stopped / Unit
returns to the stand-alone modeAutomatic, if communication is restored
10031 Unit is in Network emergency stop Network emergency stop command Unit shuts down Automatic, if emergency stop is
deactivated
10032 Water Pump #1 Default Flow switch or water pump faultUnit is restarted with another pump running; If no pump is available, the unit shuts down
Manual
10033 Water Pump #2 Default Flow switch or water pump faultUnit is restarted with another pump running; If no pump is available, the unit shuts down
Manual
En - 45 AQUACIATPOWER
9 - DIAGNOSTICS
Code Description Possible cause Action taken on the unit Reset type
10037 Circuit A - Repeated High Discharge Gas Overrides Repetitive capacity decreases None OR circuit A shuts down Automatic (no discharge gas overrides
within 30 min) or Manual
10038 Circuit B - Repeated High Discharge Gas Overrides Repetitive capacity decreases None OR circuit B shuts down Automatic (no discharge gas overrides
within 30 min) or Manual
10040 Circuit A - Repeated Low Suction Temp Overrides Repetitive capacity decreases Circuit A shuts down Manual
10041 Circuit B - Repeated Low Suction Temp Overrides Repetitive capacity decreases Circuit B shuts down Manual
10043 Low Entering Water Temperature in Heating
Low entering fluid temperature in Heating mode None
Automatic, if water temperature returns to normal or heating mode is stopped
10051 Water Exchanger Flow Switch Failure Flow switch fault Unit shuts down Manual
10063 Circuit A High Pressure Switch Failure
High pressure switch is open, compressor fault Circuit A shuts down Manual
10064 Circuit B High Pressure Switch Failure
High pressure switch is open, compressor fault Circuit B shuts down Manual
10090Water Exchanger Flow Switch: Setpoint Configuration Failure
Setpoint configuration failure Unit cannot be started Manual
10097Water Exchanger Temperature Sensors Swapped
Input and output temperature reversed Unit shuts down Manual
10099 Refrigerant Leakage Detection
Refrigerant leak or leak detector defective None Automatic, if operating conditions
return to normal
10101 Free Cooling Dry Cooler Process Failure Dry cooler fault None Automatic, if operating conditions
return to normal
11202 Water Loop : Delta Pressure Error Low water pressure offset Pump is stopped and the unit cannot
be startedAutomatic, if water pressure delta returns to normal
11203 Water Loop : Pressure Too Low Pump inlet pressure is below 60 kPa Unit shuts down
Automatic (if water pressure reading returns to normal and the alarm occurred up to 6 times in the last 24h); otherwise, Manual
11204 Water Loop : Pump Not Started
Too low or high water pressure reading Water pump is stopped Automatic, if water pressure reading
returns to normal11206 Water Loop : Pump Overload Water loop pressure drop too low None Automatic
11207 Water Loop : Flow Too Low Water loop pressure drop too high Water pump is stopped Automatic, if water flow reading returns to normal
11208 Water Loop : Pressure Sensors Crossed Pressure sensors crossed Unit shuts down
Automatic (if the alarm occurred up to 6 occurrences in the last 24h); otherwise, Manual
11209 Water Loop : Low Pressure Warning Low water pressure reading None Automatic, if water pressure reading
returns to normal
10210 Low Delta Pressure Operation Failure - cir A
Circuit running in part load with all available compressors and low delta pressure during operation. Not enough capacity available / compressor fault
Circuit A shuts down Manual
10211 Low Delta Pressure Operation Failure - cir B
Circuit running in part load with all available compressors and low delta pressure during operation. Not enough capacity available / compressor fault
Circuit B shuts down Manual
SERVICE AND FACTORY70nn Illegal configuration Incorrect unit configuration Unit cannot be started Automatic, if configuration is corrected
8000 Initial factory configuration required No factory configuration Unit cannot be started Automatic, if configuration is provided
90nn Master Chiller Configuration Error Number #1 to nn Configuration failure
Master/slave operation is disabled and the unit returns to the stand-alone mode
Automatic, if master/slave configuration returns to normal or the unit returns to the standalone mode
AQUACIATPOWER En - 46
9 - DIAGNOSTICS9 - DIAGNOSTICS
Code Description Possible cause Action taken on the unit Reset type
VFD DRIVE FAILURES AND WARNING
130nn Service Maintenance Alert Number # nn
Servicing action required. Contact Manufacturer Service Agency.
Depending on the severity of the alarm, the unit may continue to operate or the unit shuts down
Manual
130-
001: Circuit A Loss of charge 002: Circuit B Loss of charge003: Water loop size warning004: Maintenance servicing required005: F-Gas Scheduled Check required
As above As above Manual
17001 Circuit A VFD Fan Drive Failure
Speed controller fault. See also 9.3.2 Drive alarms. Circuit A shuts down Automatic or Manual
(motor overload only)
18001 Circuit B VFD Fan Drive Failure
Speed controller fault. See also 9.3.2 Drive alarms. Circuit B shuts down Automatic or Manual
(motor overload only)
19001 VFD Pump 1 Drive Failure Speed controller faultUnit is restarted with another pump running. If no pumps are available, the unit shuts down
Automatic or Manual (motor overload only)
COMPRESSOR FAILURES
6001 Circuit A Welded Contactor Failure Welded contactor of a compressor Unit shuts down, but the evaporator
pump continues to operateManual (only after re-energization of unit)
6002 Circuit B Welded Contactor Failure Welded contactor of a compressor Unit shuts down, but the evaporator
pump continues to operateManual (only after re-energization of unit)
1199 Compressor A1 Failure Compressor fault Compressor shuts down Manual1299 Compressor A2 Failure Compressor fault Compressor shuts down Manual1399 Compressor A3 Failure Compressor fault Compressor shuts down Manual1499 Compressor A4 Failure Compressor fault Compressor shuts down Manual2199 Compressor B1 Failure Compressor fault Compressor shuts down Manual2299 Compressor B2 Failure Compressor fault Compressor shuts down Manual2399 Compressor B3 Failure Compressor fault Compressor shuts down Manual2499 Compressor B4 Failure Compressor fault Compressor shuts down Manual
SOFTWARE MODULE FAILURES
55001 Database Module Failure Software problem. Contact Manufacturer Service Agency. Unit shuts down Manual
56001 Lenscan Module Failure Software problem. Contact Manufacturer Service Agency. Unit shuts down Manual
SIOB BOARD FAILURES
57001 Circuit A SIOB Low Voltage Failure
Unstable electrical supply or electrical issue Unit shuts down
Automatic (if voltage returns to normal and the alarm occurred up to 6 times in the last 24h); otherwise, Manual
57002 Circuit B SIOB Low Voltage Failure
Unstable electrical supply or electrical issue Unit shuts down
Automatic (if voltage returns to normal and the alarm occurred up to 6 times in the last 24h); otherwise, Manual
57006 EMM SIOB Low Voltage Failure
Unstable electrical supply or electrical issue Unit shuts down
Automatic (if voltage returns to normal and the alarm occurred up to 6 times in the last 24h); otherwise, Manual
57020 Main EXV stepper motor failure - cir A EXV motor fault Circuit A shuts down Manual
57021 Main EXV stepper motor failure - cir B EXV motor fault Circuit B shuts down Manual
COMMUNICATION FAILURES
10029 Loss of Communication With System Manager Communication error Unit returns to the standalone mode Automatic, if communication with
System Manager is restored
NOTE: When the "action taken" given in the table above is defined as "none", it means that the alarm message is displayed, but no action is taken on the unit.
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9 - DIAGNOSTICS9.3.2 Drive alarms/alerts
Drive alarms or alerts for VFD drive failure are displayed based on the following formulas: � 16000+X*1000+YYY for alarms � 34000+X*1000+YYY for alerts
X stands for the drive number and YYY is the alarm/alert code.
Drive number Drive assignment 1 Drive for fan(s) of circuit A2 Drive for fan(s) of circuit B3 Drive for water pump #14 Drive for water pump #2
The tables below present the most common alarms associated with Variable Frequency Drive (VFD) malfunction. Please refer to the applicable troubleshooting documentation for more information on other alarms.
Drives alarms
Code Alarm/Alert Description Action to be taken
VFD alarms2 Alarm Live zero fault Contact Manufacturer Agency4 Alarm Mains phase loss Check the VFD supply voltage and the phase balance (±3%)7 Alarm Overvoltage Contact Manufacturer Agency8 Alarm Undervoltage Contact Manufacturer Agency9 Alarm Inverter overloaded Check the VFD output current10 Alarm Motor overtemperature Check the motor temperature11 Alarm Motor thermistor Contact Manufacturer Agency12 Alarm Torque limit exceeded Check the VFD output current13 Alarm Overcurrent Check the VFD output current14 Alarm Earth fault Check if an earth fault exists16 Alarm Motor short-circuit Check if there is a short-circuit at the VFD terminals17 Alarm Serial communication timeout Check the connections and the shielding of the serial communication cable23* Alarm Internal fan fault Check the internal fan rotation25 Alarm Brake resistor short-circuited Contact Manufacturer Agency26 Alarm Brake resistor Power limit Contact Manufacturer Agency28 Alarm Brake verification Contact Manufacturer Agency29 Alarm VFD temperature too high Space temperature too high or VFD ventilation obstructed or damaged30 Alarm Motor phase U missing Check wiring of phase U31 Alarm Motor phase V missing Check wiring of phase V32 Alarm Motor phase W missing Check wiring of phase W33 Alarm Inrush fault Current demand too high: Let the VFD cool down for 20 minutes before starting it again34 Alarm Fieldbus communication fault Check the connections and the shielding of the serial communication cable36 Alarm Mains failure Check the VFD supply voltage and the phase balance (±3%)38 Alarm Internal fault Contact Manufacturer Agency47 Alarm 24 V supply low Contact Manufacturer Agency48 Alarm 1.8 V supply low Contact Manufacturer Agency57** Alarm AMA timeout Contact Manufacturer Agency65 Alarm Control board overtemperature Check the space temperature and the VFD fan67 Alarm Option configuration has changed Contact Manufacturer Agency68 Alarm Emergency stop Contact Manufacturer Agency71 Alarm PTC 1 emergency stop Contact Manufacturer Agency72 Alarm Emergency stop Contact Manufacturer Agency80 Alarm Drive initialized to default value Contact Manufacturer Agency94 Alarm End of curve Contact Manufacturer Agency95 Alarm Torque loss Contact Manufacturer Agency243 Alarm IGBT defective Contact Manufacturer Agency251*** Alarm New parts detached Contact Manufacturer Agency
* Error 24 and 104 possible** Error 50 to 58 possible*** Error 70 or 250 possible
AQUACIATPOWER En - 48
Drive alerts
Code Alarm/Alert Description Action to be taken
VFD alerts
1 Alert 10 V low Contact Manufacturer Agency2 Alert Live zero error Contact Manufacturer Agency3 Alert No motor Check the motor connections4 Alert Mains phase loss Check the VFD supply voltage and the phase balance (±3%)5 Alert DC link voltage high Check the VFD supply voltage and the phase balance (±3%)6 Alert DC link voltage low Check the VFD supply voltage and the phase balance (±3%)7 Alert DC overvoltage Contact Manufacturer Agency8 Alert DC undervoltage Contact Manufacturer Agency9 Alert Inverter overloaded Check the VFD output current10 Alert Motor overtemperature Check the motor temperature11 Alert Motor thermistor Contact Manufacturer Agency12 Alert Torque limit exceeded Check the VFD output current13 Alert Overcurrent Check the VFD output current14 Alert Earth fault Check if an earth fault exists17 Alert Control word timeout Check the connections and the shielding of the serial communication cable23* Alert Internal fan fault Check the internal fan rotation25 Alert Brake resistor short-circuited Contact Manufacturer Agency26 Alert Brake resistor Power limit Contact Manufacturer Agency28 Alert Brake verification Contact Manufacturer Agency34 Alert Fieldbus communication fault Check the connections and the shielding of the serial communication cable36 Alert Mains failure Check the VFD supply voltage and the phase balance (±3%)47 Alert 24 V supply low Contact Manufacturer Agency49 Alert Motor speed limit exceeded Contact Manufacturer Agency59 Alert Current limit exceeded Check the VFD output current62 Alert Output frequency at maximum limit Check the VFD output current64 Alert Voltage limit Supply voltage too low65 Alert Control board over temperature Check the space temperature and the VFD fan66 Alert Heat sink temperature low Space temperature too low71 Alert PTC1 emergency stop Contact Manufacturer Agency72 Alert Emergency stop Contact Manufacturer Agency90† Alert Encoder loss Contact Manufacturer Agency94 Alert End of curve Contact Manufacturer Agency95 Alert Torque loss Contact Manufacturer Agency96 Alert Start delayed Contact Manufacturer Agency97 Alert Stop delayed Contact Manufacturer Agency98 Alert Clock fault Contact Manufacturer Agency243 Alert IGBT defective Contact Manufacturer Agency247 Alert Capacity board temperature Contact Manufacturer Agency
* Error 24 and 104 possible† Not applicable to VFD size 102
9 - DIAGNOSTICS
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10 - MAINTENANCEIn order to ensure the optimal operation of the equipment as well as the optimization of all the available functionalities, it is recommended to activate a Maintenance Contract with your local Manufacturer Service Agency.
The contract will ensure your equipment is regularly inspected by specialists so that any malfunction is detected and corrected quickly and no serious damage can occur to your equipment.
The Manufacturer provides a wide range of service contracts which embrace the assistance of highly qualified HVAC engineering professionals ready to help if needed. The Maintenance contracts represent not only the best way to ensure the maximum operating life of your equipment, but also, through the expertise of qualified personnel, the optimal tool to manage your system in a cost-effective manner.
To find the best type of contract that will meet all of your expectations, please contact your local Manufacturer representatives.
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